Verfügbarkeit: Lubricants and lubrication

Lubricants and lubrication:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim WILEY-VCH 2007
Ausgabe:	2., completely rev. and extended ed.
Schlagworte:	Lubrifiants Lubrication and lubricants Schmierstoff Schmierung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XLI, 850 S. Ill., graph. Darst.
ISBN:	3527314970 9783527314973

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MARC


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Datensatz im Suchindex

_version_	1804136188070592512
adam_text	LUBRICANTS AND LUBRICATION EDITED BY THEO MANG AND WILFRIED DRESEL SECOND, COMPLETELY REVISED AND EXTENDED EDITION BICENTENNIAL BICENTENNIAL WILEY-VCH VERLAG GMBH & CO. KGAA VII CONTENTS LIST OF CONTRIBUTORS V PREFACE, FOREWORD 2ND EDITION XXXIII AWORDOFTHANKS XXXV LIST OF ABBREVIATIONS XXXVII 1 1.1 1.2 1.3 1.4 LUBRICANTS AND THEIR MARKET 1 THEO MANG PREFACE 1 LUBRICANT SALES 2 THE LUBRICANTS INDUSTRY 3 LUBRICANT SYSTEMS 5 2 LUBRICANTS IN THE TRIBOLOGICAL SYSTEM 7 THEO MANG 2.1 LUBRICANTS AS PART OF TRIBOLOGICAL RESEARCH 7 2.2 THE TRIBOLOGICAL SYSTEM 8 2.3 FRICTION 8 2.3.1 TYPES OF FRICTION 9 2.3.1.1 SLIDING FRICTION 9 2.3.1.2 ROLLING FRICTION 10 2.3.1.3 STATIC FRICTION 10 2.3.1.4 KINETIC FRICTION 10 2.3.1.5 STICK-SLIP 10 2.3.2 FRICTION AND LUBRICATION CONDITIONS 12 2.3.2.1 SOLID FRICTION (DRY FRICTION) 12 2.3.2.2 BOUNDARY FRICTION 12 2.3.2.3 FLUID FRICTION 13 2.3.2.4 MIXED FRICTION 13 2.3.2.5 SOLID LUBRICANT FRICTION 13 LUBRICANTS AND LUBRICATION. ZND ED. EDITED BY TH. MANG AND W. DRESEL COPYRIGHT 2007 WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 978-3-527-31497-3 VIII CONTENTS 2.3.2.6 STRIBECK DIAGRAM 14 2.3.2.7 HYDRODYNAMIC LUBRICATION 14 2.3.2.8 ELASTO-HYDRODYNAMIC LUBRICATION (EHD REGIME) 15 2.3.2.9 THERMO-ELASTO-HYDRODYNAMIC LUBRICATION (TEHD) 15 2.4 WEAR 17 2.4.1 WEAR MECHANISMS 17 2.4.1.1 ABRASION 17 2.4.1.2 ADHESION 17 2.4.1.3 TRIBOCHEMICAL REACTIONS 17 2.4.1.4 SURFACE FATIGUE 17 2.4.1.5 EROSION 18 2.4.1.6 FRETTING 18 2.4.1.7 CAVITATION 18 2.4.2 TYPES OF WEAR 18 2.4.3 THE WEAR PROCESS 18 IAA TRIBOMUTATION 19 2.4.5 NANOTRIBOLOGY 20 2.4.6 TRIBOSYSTEMS OF TOMORROW 22 3 RHEOLOGY OF LUBRICANTS 23 THEO MANG 3.1 VISCOSITY 23 3.2 INFLUENCE OF TEMPERATIIRE ON VISCOSITY (V-T BEHAVIOR) 25 3.2.1 VISCOSITY INDEX 26 3.3 VISCOSITY-PRESSURE DEPENDENCY 27 3.4 THE EFFECT OF SHEAR RATE ON VISCOSITY 28 3.5 SPECIAL RHEOLOGICAL EFFECTS 30 3.5.1 GREASES 31 3.6 VISCOSITY GRADES 31 3.6.1 ISO VISCOSITY GRADES 32 3.6.2 OTHER VISCOSITY GRADES 32 3.6.2.1 ENGINE OILS 32 3.6.2.2 AUTOMOTIVE GEAR OILS 32 3.6.2.3 INDUSTRIAL GEAR OILS 32 3.6.2.4 VISCOSITY GRADES FOR BASE OILS 33 3.6.2.5 COMPARISON OF VISCOSITY GRADES 33 4 BASE OILS 34 THEO MANG AND GEORG LINGG 4.1 BASE OILS- A HISTORICAL REVIEW AND OUTLOOK 34 4.2 CHEMICAL CHARACTERIZATION OF MINERAL BASE OILS 35 4.2.1 ROUGH CHEMICAL CHARACTERIZATION 35 4.2.1.1 VISCOSITY-GRAVITY CONSTANT (VGC) 35 4.2.1.2 ANILINE POINT 35 4.2.2 CARBON DISTRIBUTION 36 4.2.3 HYDROCARBON COMPOSITION 36 4.2.4 POLYCYCLIC AROMATICS IN BASE OILS 36 4.2.4.1 AROMATICS IN WHITE MINERAL OILS 37 4.3 REFINING 38 4.3.1 DISTILLATION 39 4.3.2 DE-ASPHALTING 39 4.3.3 TRADITIONAL REFINING PROCESSES 40 4.3.3.1 ACID REFINING 41 4.3.3.2 SOLVENT EXTRACTION 41 4.3.4 SOLVENT DEWAXING 43 4.3.5 FINISHING 44 4.3.5.1 LUBE CRUDES 44 4.4 BASE OIL MANUFACTURING BY HYDROGENATION AND HYDROCRACKING 45 4.4.1 MANUFACTURING NAPHTHENIC BASE OILS BY HYDROGENATION 46 4.4.2 PRODUCTION OF WHITE OILS 48 4.4.3 LUBE HYDROCRACKING 49 4.4.4 CATALYTIC DEWAXING 50 4.4.5 WAX ISOMERIZATION 52 4.4.6 HYBRID LUBE OIL PROCESSING 52 4.4.7 ALL-HYDROGEN ROUTE 53 4.4.8 GAS-TO-LIQUIDS CONVERSION TECHNOLOGY 55 4.5 BOILING AND EVAPORATION BEHAVIOROF BASE OILS 55 4.6 BASE OIL CATEGORIES AND EVALUATION OF VARIOUS PETROLEUM BASE OILS 59 5 SYNTHETIC BASE OILS 63 WILFRIED DRESEL 5.1 SYNTHETIC HYDROCARBONS 64 5.1.1 POLYALPHAOLEFINS 65 5.1.2 POLYINTERNALOLEFINS 67 5.1.3 POLYBUTENES 68 5.1.4 ALKYLATED AROMATICS 69 5.1.5 OTHER HYDROCARBONS 70 5.2 HALOGENATED HYDROCARBONS 71 5.3 SYNTHETIC ESTERS 71 5.3.1 ESTERS OF CARBOXYLICACIDS 71 5.3.1.1 DICARBOXYLIC ACID ESTERS 72 5.3.1.2 POLYOL ESTERS 73 5.3.1.3 OTHER CARBOXYLIC ESTERS 74 5.3.1.4 COMPLEX ESTERS 75 5.3.1.5 FLUORINATED CARBOXYLIC ACID ESTERS 76 5.3.2 PHOSPHATE ESTERS 76 5.4 POLYALKYLENE GLYCOLS 77 5.5 OTHER POLYETHERS 79 X I CONTENTS 5.5.1 PERFLUORINATED POLYETHERS 79 5.5.2 POLYPHENYL ETHERS 80 5.5.3 POLYSILOXANES (SILICONE OILS) 81 5.6 OTHER SYNTHETIC BASE OILS 83 5.7 COMPARISONOF SYNTHETIC BASE OILS 87 5.8 MIXTURES OF SYNTHETIC LUBRICANTS 87 6 ADDITIVES 88 JUERGEN BRAUN 6.1 ANTIOXIDANTS 89 6.1.1 MECHANISMOFOXIDATION AND ANTIOXIDANTS 89 6.1.2 COMPOUNDS 91 6.1.2.1 PHENOLIC ANTIOXIDANTS 91 6.1.2.2 AROMATIC AMINES 91 6.1.2.3 COMPOUNDS CONTAINING SULFUR AND PHOSPHORUS 92 6.1.2.4 ORGANOSULFUR COMPOUNDS 92 6.1.2.5 ORGANOPHOSPHORUS COMPOUNDS 93 6.1.2.6 OTHER COMPOUNDS 93 6.1.2.7 SYNERGISTIC MIXTURES 93 6.1.3 TESTING OF THE OXIDATION STABILITY 93 6.2 VISCOSITY MODIFIERS 94 6.2.1 PHYSICAL DESCRIPTION OF VISCOSITY INDEX 94 6.2.2 VI IMPROVEMENT MECHANISMS 94 6.2.3 STRUCTURE AND CHEMISTRY OF VISCOSITY MODIFIERS 96 6.3 POURPOINT DEPRESSANTS (PPD) 97 6.4 DETERGENTS AND DISPERSANTS 99 6.4.1 MECHANISMOF DD ADDITIVES 100 6.4.2 METAL-CONTAINING COMPOUNDS (DETERGENTS) 100 6.4.2.1 PHENATES 200 6.4.2.2 SALICYLATES 100 6.4.2.3 THIOPHOSPHONATES 101 6.4.2.4 SULFONATES 102 6.4.3 ASHLESS DISPERSANTS (AD) 103 6.5 ANTIFOAM AGENTS 305 6.5.1 SILICON DEFOAMERS 105 6.5.2 SILICONE-FREE DEFOAMERS 106 6.6 DEMULSIFIERS AND EMULSIFIERS 106 6.6.1 DEMULSIFIERS 206 6.6.2 EMULSIFIERS 206 6.7 DYES 207 6.8 ANTIWEAR (AW) AND EXTREME PRESSURE (EP) ADDITIVES 107 6.8.1 FUNCTION OF AW/EP ADDITIVES 207 6.8.2 COMPOUNDS 208 6.8.2.1 PHOSPHORUS COMPOUNDS 208 CONTENTS XI 6.8.2.2 COMPOUNDS CONTAINING SULFUR AND PHOSPHORUS 109 6.8.2.3 COMPOUNDS CONTAINING SULFUR AND NITROGEN 110 6.8.2.4 SULFUR COMPOUNDS 111 6.8.2.5 PEP ADDITIVES 112 6.8.2.6 CHLORINE COMPOUNDS 112 6.8.2.7 SOLID LUBRICATING COMPOUNDS 113 6.9 FRICTION MODIFIERS (FM) 113 6.10 CORROSION INHIBITORS 114 6.10.1 MECHANISMOF CORROSION INHIBITORS 114 6.10.2 ANTIRUST ADDITIVES (FERROUS METALS) 115 6.10.2.1 SULFONATES 115 6.10.2.2 CARBOXYLIC ACID DERIVATIVES 115 6.10.2.3 AMINE NEUTRALIZED ALKYLPHOSPHORIC ACID PARTIAL ESTERS 116 6.10.2.4 VAPOR PHASE CORROSION INHIBITORS 116 6.10.3 METAL PASSIVATORS (NON-FERROUS METALS) 117 7 LUBRICANTS IN THE ENVIRONMENT 119 ROLF LUTHER 7.1 DEFINITION OF ENVIRONMENTALLY FRIENDLY LUBRICANTS 229 7.2 CURRENT SITUATION 120 7.2.1 STATISTICAL DATA 120 7.2.2 ECONOMIC CONSEQUENCES AND SUBSTITUTION POTENTIAL 121 7.2.3 AGRICULTURE, ECONOMY, AND POLITICS 123 7.2.4 POLITICAL INITIATIVES 124 7.3 TESTS TO EVALUATE BIOTIC POTENTIAL 125 7.3.1 BIODEGRADATION 125 7.3.2 ECOTOXICITY 126 7.3.3 EMISSION THRESHOLDS 127 7.3.4 WATER POLLUTION 127 7.3.4.1 THE GERMAN WATER HAZARDOUS CLASSES 127 7.3.4.2 GERMAN REGULATIONS FOR USING WATER-ENDANGERING LUBRICANTS (VAWS) 228 7.4 ENVIRONMENTAL LEGISLATION 1: REGISTRATION, EVALUATION AND AUTHORIZATION OF CHEMICALS (REACH) 230 7.4.1 REGISTRATION 232 7.4.2 EVALUATION 232 7.4.2 AUTHORIZATION 233 7.4.2 REGISTRATION OBLIGATIONS 235 7.5 GLOBALLY HARMONIZED SYSTEM OF CLASSIFICATION AND LABELING (GHS) 236 7.6 ENVIRONMENTAL LEGISLATION 2: DANGEROUS PREPARATIONS DIRECTIVE (1999/45/EC) 239 7.7 ENVIRONMENTAL LEGISLATION 3: REGULAER USE 240 7.7.1 ENVIRONMENTAL LIABILITY LAW 242 7.7.2 THE CHEMICALS LAW, HAZARDOUS SUBSTANCES LAW 242 XII \| CONTENTS 7.7.3 TRANSPORT REGULATIONS 142 7.7.4 DISPOSAL (WASTE AND RECYCLING LAWS) 142 7.7.5 DISPOSAL OPTIONS FOR NOT WATER POLLUTANT VEGETABLE OILS 143 7.8 ENVIRONMENTAL LEGISLATION 4: EMISSIONS 144 7.8.1 AIR POLLUTION 144 7.8.2 WATER POLLUTION 144 7.8.3 GERMAN LAW FOR SOIL PROTECTION 145 7.8.4 GERMAN WATER LAW 146 7.8.5 WASTE WATER CHARGES 147 7.8.6 CLEAN AIR: GERMAN EMISSIONS LAW 147 7.8.7 DRINKING WATER DIRECTIVE 147 7.9 STANDARDIZATION OF ENVIRONMENTALLY COMPATIBLE HYDRAULIC FLUIDS 248 7.9.1 THE GERMAN REGULATION VDMA 24568 148 7.9.2 ISO REGULATION 15380 148 7.10 ENVIRONMENTAL SEAL 353 7.10.1 GLOBAL ECO-LABELING NETWORK 153 7.10.2 EUROPEAN ECO-LABEL 153 7.10.3 THE GERMAN BLUE ANGEL 157 7.10.4 NORDIC COUNTRIES (NORWAY, SWEDEN, FINLAND, ICELAND) - WHITE SWAN 258 7.10.4.1 REQUIREMENTS CONCEMING RENEWABLE RESOURCES 160 7.10.4.2 REQUIREMENTS CONCEMING RE-REFINED OIL 260 7.10.4.3 REQUIREMENTS CONCEMING ENVIRONMENTALLY HARMFUL COMPONENTS 260 7.10.4.4 REQUIREMENTS FOR HYDRAULIC FLUIDS, MOULD OIL, METALWORKING FLUIDS 160 7.10.5 THE CANADIAN ENVIRONMENTAL CHOICE (MAPLE LEAF) 260 7.10.6 OTHER ECO-LABELS 262 7.10.6.1 AUSTRIA 262 7.10.6.2 FRANCE 262 7.10.6.3 JAPAN 163 7.10.6.4 USA 263 7.10.6.5 THE NETHERLANDS 263 7.11 BASE FLUIDS 264 7.11.1 BIODEGRADABLE BASE OILS FOR LUBRICANTS 264 7.11.2 SYNTHETIC ESTERS 265 7.11.3 POLYGLYCOLS 266 7.11.4 POLYALPHAOLEFINS 266 7.11.5 RELEVANT PROPERTIES OF ESTER OILS 266 7.11.5.1 EVAPORATION LOSS 266 7.11.5.2 VISCOSITY-TEMPERATURE BEHAVIOR 266 7.11.5.3 BOUNDARY LUBRICATION 267 7.12 ADDITIVES 267 7.12.1 EXTREME PRESSURE/ANTIWEAR ADDITIVES 267 7.12.2 CORROSION PROTECTION 268 7.12.3 ANTIOXIDANTS 168 CONTENTS XIII 7.13 PRODUCTS (EXAMPLES) 168 7.13.1 HYDRAULIC FLUIDS 169 7.13.2 METAL WORKING OIL 169 7.13.3 OIL-REFRESHING SYSTEM 170 7.14 SAFETY ASPECTS OF HANDLING LUBRICANTS (WORKING MATERIALS) 171 7.14.1 TOXICOLOGICAL TERMINOLOGY AND HAZARD INDICATORS 171 7.14.1.1 ACUTE TOXICITY 171 7.14.1.2 SUBCHRONIC AND CHRONIC TOXICITY 172 7.14.1.3 POISON CATEGORIES 172 7.14.1.4 CORROSIVE, CAUSTIC 172 7.14.1.5 EXPLOSION AND FLAMMABILITY 172 7.14.1.6 CARCINOGENIC 173 7.14.1.7 TERATOGENS, MUTAGENS 273 7.14.2 MAK (MAXIMUM WORKPLACE CONCENTRATION) VALUES 173 7.14.3 POLYCYCLIC AROMATIC HYDROCARBONS (PAK, PAH, PCA) 174 7.14.4 NITROSAMINES IN CUTTING FLUIDS 274 7.14.5 LAW ON FLAMMABLE FLUIDS 175 7.15 SKIN PROBLEMS CAUSED BY LUBRICANTS 276 7.15.1 STRUCTURE AND FUNCTION OFTHE SKIN 276 7.15.2 SKIN DAMAGE 277 7.15.2.1 OIL ACNE (PARTICLE ACNE) 277 7.15.2.2 OIL ECZEMA 278 7.15.3 TESTING SKIN COMPATIBILITY 279 7.15.4 SKIN FUNCTION TESTS 280 7.15.5 SKIN CARE AND SKIN PROTECTION 282 8 DISPOSALOF USED LUBRICATING OILS 283 THEO MANG 8.1 POSSIBLE USES OF WASTE OIL 284 8.2 LEGISLATIVE INFLUENCES ON WASTE OIL COUECTION AND RECONDITIONING 284 8.3 RE-REFMING 285 8.3.1 SULFURIC ACID REFINING (MEINKEN) 285 8.3.2 PROPANE EXTRACTION PROCESS (IFP, SNAMPROGETTI) 286 8.3.3 MOHAWK TECHNOLOGY (CEP-MOHAWK) 287 8.3.4 KTI PROCESS 287 8.3.5 PROP PROCESS 287 8.3.6 SAFETY KLEEN PROCESS 288 8.3.7 DEA TECHNOLOGY 289 8.3.8 OTHER RE-REFINING TECHNOLOGIES 290 9 LUBRICANTS FOR INTERNAL COMBUSTION ENGINES 292 MANFRED HARPERSCHEID AND JUERGEN OMEIS 9.1 FOUR-STROKE ENGINE OILS 292 9.1.1 GENERAL OVERVIEW 292 XIV CONTENTS 9.1.1.1 FUNDAMENTAL PRINCIPLES 192 9.1.1.2 VISCOSITY GRADES 193 9.1.1.3 PERFORMANCE SPECIFICATIONS 195 9.1.1.4 FORMULATION OF ENGINE OILS 396 9.1.1.5 ADDITIVES 196 9.1.1.6 PERFORMANCE ADDITIVES 196 9.1.1.7 VISCOSITY IMPROVERS 197 9.1.2 CHARACTERIZATION AND TESTING 197 9.1.2.1 PHYSICAL AND CHEMICAL TESTING 198 9.1.2.2 ENGINE TESTING 198 9.1.2.3 PASSENGER CAR ENGINE OILS 200 9.1.2.4 ENGINE OIL FOR COMMERCIAL VEHICLES 201 9.1.3 CLASSIFICATION BY SPECIFICATION 202 9.1.3.1 MIL SPECIFICATIONS 202 9.1.3.2 API AND ILSAC CLASSIFICATION 203 9.1.3.3 CCMC SPECIFICATIONS 205 9.1.3.4 ACEA SPECIFICATIONS 206 9.1.3.5 MANUFACTIIRERS APPROVAL OF SERVICE ENGINE OILS 209 9.1.3.6 FUTURE TRENDS 214 9.1.3.7 FUEL EFFICIENCY 214 9.1.3.8 LONG DRAIN INTERVALS 216 9.1.3.9 LOW EMISSION 217 9.2 TWO-STROKE OILS 218 9.2.1 APPLICATION AND CHARACTERISTICS OF TWO-STROKE OILS 218 9.2.2 CLASSIFICATION OF TWO-STROKE OILS 220 9.2.2.1 API SERVICE GROUPS 220 9.2.2.2 JASO CLASSIFICATION 220 9.2.2.3 ISO CLASSIFICATION 221 9.2.3 OILS FOR TWO-STROKE OUTBOARD ENGINES 222 9.2.4 ENVIRONMENTAL^ FRIENDLY TWO-STROKE OILS 223 9.3 TRACTOR OILS 224 9.4 GAS ENGINE OILS 225 9.4.1 USE OF GAS ENGINES-GAS ASA FUEL 226 9.4.2 LUBRICANTS FOR GAS ENGINES 226 9.5 MARINE DIESEL ENGINE OILS 227 9.5.1 LOW-SPEED CROSSHEAD ENGINES 227 9.5.2 MEDIUM-SPEED ENGINES 228 9.5.3 LUBRICANTS 229 10 CEAR LUBRICATION OILS 230 THORSTEN BARTELS 10.1 INTRODUCTION 230 10.2 REQUIREMENTS OF GEAR LUBRICATION OILS 231 10.3 TRIBOLOGYOFGEARS 233 CONTENTS XV 10.3.1 FRICTION CONDITIONS OF GEAR TYPES 234 10.3.1.1 TOOTHED WHEELS 234 10.3.1.2 LOAD AND SPEED CONDITIONS DURING TOOTH ENGAGEMENT 234 10.3.1.3 STATIC AND DYNAMIC LOAD DISTRIBUTION WITHIN TOOTH ENGAGEMENT 236 10.3.1.4 LUBRICATION FILM GENERATION WITHIN TOOTH CONTACT 236 10.3.1.5 LUBRICATION CONDITIONS 238 10.3.2 SPECIFIC GEAR AND TRANSMISSION FAILURE 240 10.3.2.1 WEAR 240 10.3.2.2 SCUFENG AND SCORING 241 10.3.2.3 MICRO-PITTING 242 10.3.2.4 PITTING 244 10.3.2.5 TOOTH FRACTURE 245 10.4 GEAR LUBRICATION OILS FOR MOTOR VEHICLES 245 10.4.1 DRIVELINE LUBRICANTS FOR COMMERCIAL VEHICLES 246 10.4.2 DRIVELINE LUBRICANTS FOR PASSENGER CARS 250 10.4.3 LUBRICANTS FOR AUTOMATIC TRANSMISSIONS AND CVTS 254 10.4.3.1 FLUID REQUIREMENTS FOR HYDRODYNAMIC TRANSMISSIONS 256 10.4.3.2 FLUID REQUIREMENTS FOR WET CLUTCHES AND BRAKES 257 10.4.3.3 FLUID REQUIREMENTS FOR CVT APPLICATIONS 259 10.4.3.4 B-CVT PUSH BELT AND LINK CHAIN DRIVES 259 10.4.3.5 T-CVT TRACTION DRIVES 261 10.4.3.6 H-CVT HYDROSTATIC DYNAMIC POWERSHIFT DRIVES 262 10.5 MULTIFUNCTIONAL FLUIDS IN VEHICLE GEARS 262 10.6 GEAR LUBRICANTS FOR INDUSTRIAL GEARS 264 10.6.1 VISCOSITY-TEMPERATURE CHARACTERISTICS 266 10.6.2 FLUID SHEAR STABILITY 267 10.6.3 CORROSION AND RUST PROTECTION 267 10.6.4 OXIDATION STABILITY 268 10.6.5 FLASH POINT AND POUR POINT 268 10.6.6 DEMULSIBILITY AND WATER SEPARATION 268 10.6.7 AIR RELEASE 268 10.6.8 PAINT COMPATIBILITY 269 10.6.9 SEAL COMPATIBILITY 269 10.6.10 FOAMING 269 10.6.11 MISCIBILITY WITH MINERAL OILS 269 10.6.12 ENVIRONMENTAL AND SKIN COMPATIBILITY 269 10.6.13 OPEN GEAR DRIVES 270 10.7 COST-TO-BENEFIT RATIO OFGEAR LUBRICATION OILS 270 11 HYDRAULIC OILS 274 WOLFGANG BOCK 11.1 INTRODUCTION 274 11.2 HYDRAULIC PRINCIPLE-PASCAL S LAW 275 11.3 HYDRAULIC SYSTEMS, CIRCUITS, COMPONENTS 276 XVI CONTENTS 11.3.1 ELEMENTS OF A HYDRAULIC SYSTEM 276 11.3.1.1 PUMPS AND MOTORS 276 11.3.1.2 HYDRAULIC CYLINDERS 277 11.3.1.3 VALVES 279 11.3.1.4 CIRCUIT COMPONENTS 279 11.3.1.5 SEALS, GASKETS AND ELASTOMERS 279 11.4 HYDRAULIC FLUIDS 281 11.4.1 COMPOSITION OF HYDRAULIC FLUIDS (BASE FLUIDS, ADDITIVES) 281 11.4.1.1 BASE OIL, BASE FLUID 281 11.4.1.2 HYDRAULIC FLUID ADDITIVES 281 11.4.2 PRIMARY, SECONDARY AND TERTIARY CHARACTERISTICS OF A HYDRAULIC FLUID 282 11.4.3 SELECTION CRITERIA FOR HYDRAULIC FLUIDS 283 11.4.4 CLASSIFICATION OF HYDRAULIC FLUIDS - STANDARDIZATION OF HYDRAULIC FLUIDS 286 11.4.4.1 CLASSIFICATION OF HYDRAULIC FLUIDS 286 11.4.5 MINERAL OIL-BASED HYDRAULIC FLUIDS 286 11.4.5.1 H HYDRAULIC OILS 287 11.4.5.2 HL HYDRAULIC OILS 288 11.4.5.3 HLP HYDRAULIC OILS 288 11.4.5.4 HVLP HYDRAULIC OILS 288 11.4.5.5 HLPD HYDRAULIC OILS 294 11.4.6 FIRE-RESISTANT HYDRAULIC FLUIDS 294 11.4.6.1 HFA FLUIDS 295 11.4.6.2 HFB FLUIDS 295 11.4.6.3 HFC FLUIDS 295 11.4.6.4 HFD FLUIDS 296 11.4.7 BIODEGRADABLE HYDRAULIC FLUIDS 296 11.4.7.1 HETG: TRIGLYCERIDE, VEGETABLE-OIL TYPES 296 11.4.7.2 HEES: SYNTHETIC ESTER TYPES 298 11.4.7.3 HEPG: POLYGLYCOL TYPES 299 11.4.7.4 HEPR: POLYALPHAOLEFIN AND RELATED HYDROCARBON PRODUCTS 299 11.4.8 FOOD-GRADE HYDRAULIC FLUIDS 299 11.4.8.1 NSF H2 LUBRICANTS 300 11.4.8.2 NSF HL LUBRICANTS 303 11.4.9 AUTOMATIC TRANSMISSION FLUIDS (ATF) 303 11.4.10 FLUIDS IN TRACTORS AND AGRICULTURAL MACHINERY 303 11.4.11 HYDRAULIC FLUIDS FOR AIRCRAFT 303 11.4.12 INTERNATIONAL REQUIREMENTS ON HYDRAULIC OILS 304 11.4.13 PHYSICAL PROPERTIES OF HYDRAULIC OILS AND THEIR EFFECT ON PERFORMANCE 306 11.4.13.1 VISCOSITY, V-T BEHAVIOR 307 11.4.13.2 VISCOSITY-PRESSURE BEHAVIOR 307 11.4.13.3 DENSITY 308 11.4.13.4 COMPRESSIBILITY 310 CONTENTS I XVII 11.4.13.5 GAS SOLUBILITY, CAVITATION 312 11.4.13.6 AIR RELEASE 314 11.4.13.7 FOAMING 314 11.4.13.8 DEMULSIFICATION 325 11.4.13.9 POUR-POINT 315 11.4.13.10 COPPER CORROSION BEHAVIOR (COPPER-STRIP TEST) 316 11.4.13.11 WATER CONTENT (KARL FISCHER METHOD) 326 11.4.13.12 AGING STABILITY (BAADER METHOD) 326 11.4.13.13 AGING STABILITY (TOST TEST) 327 11.4.13.14 NEUTRALIZATION NUMBER 327 11.4.13.15 STEEL/FERROUS CORROSION PROTECTION PROPERTIES 327 11.4.13.16 WEAR PROTECTION (SHELL FOUR-BALL APPARATUS; VKA, DIN 51 350) 327 11.4.13.17 SHEAR STABILITY OF POLYMER-CONTAINING LUBRICANTS 328 11.4.13.18 MECHANICAL TESTING OF HYDRAULIC FLUIDS IN ROTARY VANE PUMPS (DIN 51 389-2) 328 11.4.13.19 WEAR PROTECTION (FZG GEAR RIG TEST; DIN 51 354-1 AND -2) 328 11.5 HYDRAULIC SYSTEM FILTERS 329 11.5.1 CONTAMINANTS IN HYDRAULIC FLUIDS 329 11.5.2 OIL CLEANLINESS GRADES 320 11.5.3 FILTRATION 322 11.5.4 REQUIREMENTS OF HYDRAULIC FLUIDS 322 11.6 MACHINE TOOL LUBRICATION 322 11.6.1 THE ROLEOF MACHINE TOOLS 322 11.6.2 MACHINE TOOL LUBRICATION 322 11.6.3 MACHINE TOOL COMPONENTS-LUBRICANTS 323 11.6.3.1 HYDRAULIC UNIT 323 11.6.3.2 SLIDEWAYS 326 11.6.3.3 SPINDLES (MAIN AND WORKING SPINDLES) 327 11.6.3.4 GEARBOXES AND BEARINGS 327 11.6.4 MACHINE TOOL LUBRICATION PROBLEMS 328 11.6.5 HYDRAULIC FLUIDS - NEW TRENDS, NEW DEVELOPMENTS 328 11.6.5.1 APPLICATIONS 328 11.6.5.2 CHEMISTRY 328 11.6.5.3 EXTREME PRESSURE AND ANTI-WEAR PROPERTIES 330 11.6.5.4 DETERGENT/DISPERSANT PROPERTIES 330 11.6.5.5 AIR RELEASE 332 11.6.5.6 STATIC COEFFICIENT OF FRICTION 332 11.6.5.7 OXIDATION STABILITY 332 11.6.5.8 SHEAR STABILITY 332 11.6.5.9 FILTRATION OF ZN AND ASH-FREE HYDRAULIC FLUIDS 333 11.6.5.10 ELECTROSTATIC CHARGES 333 11.6.5.11 MICRO SCRATCHING 334 11.6.5.12 UPDATED STANDARDS 335 11.6.5.13 CONCLUSION 335 11.7 SUMMARY 336 XVIII \| CONTENTS 12 COMPRESSOR OILS 338 12.1 AIR COMPRESSOR OILS 338 WOLFGANG BOCK AND GEORG LINGG 12.1.1 DISPLACEMENT COMPRESSORS 340 12.1.1.1 RECIPROCATING PISTON COMPRESSORS 340 12.1.1.2 LUBRICATION OF RECIPROCATING PISTON COMPRESSORS 340 12.1.1.3 ROTARY PISTON COMPRESSORS (SINGLE SHAFT, ROTARY VANE COMPRESSORS) 341 12.1.1.4 LUBRICATION OF ROTARY PISTON COMPRESSORS 341 12.1.1.5 SCREW COMPRESSORS 342 12.1.1.6 LUBRICATION OF SCREW COMPRESSORS 342 12.1.1.7 ROOTS COMPRESSORS 343 12.1.1.8 LUBRICATION OF ROOTS COMPRESSORS 343 12.1.2 DYNAMIC COMPRESSORS 343 12.1.2.1 TURBO COMPRESSORS 343 12.1.2.2 LUBRICATION OF TURBO COMPRESSORS 344 12.1.3 PREPARATION OF COMPRESSED AIR 344 12.1.4 LUBRICATION OF GAS COMPRESSORS 344 12.1.4.1 OXYGEN COMPRESSORS 344 12.1.4.2 ACID GAS COMPRESSORS 344 12.1.4.3 INERT GAS COMPRESSORS 344 12.1.4.4 HYDROCARBON COMPRESSORS 345 12.1.4.5 VACUUM PUMP LUBRICATION 345 12.1.5 CHARACTERISTICS OF COMPRESSOR OILS 345 12.1.6 STANDARDS AND SPECIFICATIONS OF COMPRESSOR OILS 345 12.2 REFRIGERATION OILS 353 WOLFGANG BOCK 12.2.1 INTRODUCTION 353 12.2.2 MINIMUM REQUIREMENTS OF REFRIGERATION OILS 354 12.2.2.1 DIN 51 503-1: REFRIGERATION OILS, MINIMUM REQUIREMENTS (1997) 354 12.2.3 CLASSIFICATIONS OF REFRIGERATION OILS 355 12.2.3.1 MINERAL OILS (MO)-DEWAXED NAPHTHENIC REFRIGERATION OILS 355 12.2.3.2 MINERAL OILS (MO) -PARAFFMIC REFRIGERATION OILS 355 12.2.3.3 S EMI- SYNTHETIC REFRIGERATION OILS - MIXTURES OF ALKYLBENZENES AND MINERAL OILS (MO/AB) 356 12.2.3.4 FULLY SYNTHETIC REFRIGERATION OILS-ALKYLBENZENES (AB) 357 12.2.3.5 FULLY SYNTHETIC REFRIGERATION OILS-POLYALPHAOLEFINS (PAO) 357 12.2.3.6 FULLY SYNTHETIC REFRIGERATION OILS-POLYOLESTERS (POE) 357 12.2.3.7 FULLY SYNTHETIC REFRIGERATION OILS-POLYGLYCOLS (PAG) FOR R 134A 359 12.2.3.8 FULLY SYNTHETIC REFRIGERATION OILS-POLYGLYCOLS FOR NH 3 359 12.2.3.9 OTHER SYNTHETIC FLUIDS 360 12.2.3.10 REFRIGERATION OILS FOR C0 2 360 12.2.3.11 COPPER PLATING 360 12.2.4 TYPES OF COMPRESSOR 362 12.2.5 VISCOSITY SELECTION 362 12.2.5.1 GENERAL OVERVIEW 362 12.2.5.2 MIXTURE CONCENTRATION IN RELATIONSHIP TO TEMPERATURE AND PRESSURE (RENISO TRITON SE 55-R 134A) 365 12.2.5.3 MIXTURE VISCOSITY IN RELATIONSHIP TO TEMPERATURE, PRESSURE AND REFRIGERANT CONCENTRATION (RENISO TRITON SE 55-R 134A) 365 12.2.5.4 MIXTURE DENSITY IN RELATIONSHIP TO TEMPERATURE AND REFRIGERANT CONCENTRATION (RENISO TRITON SE 55-R 134A; FIG. 12.9) 365 12.2.5.5 MISCIBILITY GAP, SOLUBILITY THRESHOLD (RENISO TRITON SERIES WITH R 134A, FIG. 12.10) 365 12.2.6 SUMMARY 366 13 TURBINE OILS 367 WOLFGANG BOCK 13.1 INTRODUCTION 367 13.2 DEMANDS ON TURBINE OILS-CHARACTERISTICS 367 13.3 FORMULATION OF TURBINE OILS 368 13.4 TURBINE LUBRICANTS-SPECIFICATIONS 369 13.5 TURBINE OIL CIRCUITS 374 13.6 FLUSHING TURBINE OIL CIRCUITS 379 13.7 MONITORING AND MAINTENANCE OF TURBINE OILS 380 13.8 LIFE OF(STEAM) TURBINE OILS 380 13.9 GAS TURBINE OILS-APPLICATION AND REQUIREMENTS 381 13.10 FIRE-RESISTANT, WATER-FREE FLUIDS FOR POWER STATION APPLICATIONS 382 13.11 LUBRICANTS FOR WATER TURBINES AND HYDROELECTRIC PLANTS 383 14 METALWORKING FLUIDS 384 THEO MANG CARMEN FREILER AND DIETRICH HOERNER 14.1 ACTION MECHANISM AND CUTTING FLUID SELECTION 385 14.1.1 LUBRICATION 386 14.1.2 COOLING 387 14.1.3 SIGNIFICANCE OF CUTTING FLUID WITH VARIOUS CUTTING MATERIALS 389 14.1.3.1 HIGH-SPEED STEELS 389 14.1.3.2 CEMENTED CARBIDE METALS 390 14.1.3.3 COATED CARBIDE METALS 390 14.1.3.4 CERAMIC MATERIALS 390 14.1.3.5 CUBIC BORON NITRIDE (CBN) 390 14.1.3.6 POLYCRYSTALLINE DIAMOND (PCD) 391 14.1.3.7 COATINGS 391 14.1.4 CUTTING FLUID SELECTION FOR VARIOUS CUTTING METHODS AND CUTTING CONDITIONS 391 XX CONTENTS 14.2 FRICTION AND WEAR ASSESSMENT METHOD FOR THE USE OF CUTTING FLUIDS 393 14.2.1 TOOL LIFE AND NUMBER OF PARTS PRODUCED BY THE TOOL AS PRACTICAL ASSESSMENT PARAMETERS 394 14.2.2 MEASURING CUTTING FORCES IN SCREENING TESTS 394 14.2.3 FEED RATES AT CONSTANT FEED FORCE 395 14.2.4 MEASURING TOOL LIFE BY FAST-SCREENING METHODS 395 14.2.5 CUTTING GEOMETRY AND CHIP FLOW 396 14.2.6 OTHER FAST TESTING METHODS 397 14.2.6.1 TEMPERATURE MEASUREMENT 397 14.2.6.2 RADIOACTIVE TOOLS 397 14.2.6.3 SURFACE FINISH 397 14.3 WATER-MISCIBLE CUTTING FLUIDS 397 14.3.1 NOMENCLATURE AND BREAKDOWN 398 14.3.2 COMPOSITUM 400 14.3.2.1 EMULSIFIERS 400 14.3.2.2 VISCOSITY OF EMULSIONS 406 14.3.2.3 PHASE REVERSAL, DETERMINATION OF THE TYPE OF EMULSION 407 14.3.2.4 DEGREEOF DISPERSION 408 14.3.2.5 STABILITY 409 14.3.2.6 CORROSION INHIBITORS AND OTHER ADDITIVES 411 14.3.2.7 CUTTING FLUIDS CONTAINING EMULSIFIERS 413 14.3.2.8 COOLANTS CONTAINING POLYGLYCOLS 435 14.3.2.9 SALT SOLUTIONS 415 14.3.3 CORROSION PROTECTION AND CORROSION TEST METHODS 416 14.3.4 CONCENTRATION OFWATER-MIXED CUTTING FLUIDS 417 14.3.4.1 DETERMINATION OF CONCENTRATION BY DIN 51 368 (IP 137) 417 14.3.4.2 CONCENTRATION MEASUREMENT USING HAND-HELD REFRACTOMETERS 418 14.3.4.3 CONCENTRATION MEASUREMENT THROUGH INDIVIDUAL COMPONENTS 418 14.3.4.4 DETERMINATION OF CONCENTRATION BY TITRATION OF ANIONIC COMPONENTS 418 14.3.4.5 DETERMINATION OF CONCENTRATION THROUGH ALKALI RESERVE 419 14.3.4.6 CONCENTRATION AFTER CENTRIFUGING 419 14.3.5 STABILITY OF COOLANTS 419 14.3.5.1 DETERMINATION OFPHYSICAL EMULSION STABILITY 419 14.3.5.2 ELECTROLYTE STABILITY 420 14.3.5.3 THERMAL STABILITY 421 14.3.5.4 STABILITY TO METAL CHIPS 422 14.3.6 FOAMING PROPERTIES 422 14.3.6.1 DEFINITION AND ORIGIN OF FOAM 423 14.3.6.2 FOAM PREVENTION 424 14.3.6.3 METHODS OF DETERMINING FOAM BEHAVIOR 424 14.3.7 METALWORKING FLUID MICROBIOLOGY 425 14.3.7.1 HYGIENIC AND TOXICOLOGICAL ASPECTS OF MICROORGANISMS 427 14.3.7.2 METHODS OF DETERMINING MICROBIAL COUNT 427 CONTENTS XXI 14.3.7.3 DETERMINATION OFTHE RESISTANCE OF WATER-MISCIBLE COOLANTS TOWARDS MICROORGANISMS 428 14.3.7 .4 REDUCING OR AVOIDING MICROBIAL GROWTH IN COOLANTS 428 14.3.8 PRESERVATION OF COOLANTS WITH BIOEIDES 430 14.3.8.1 ALDEHYDES 434 14.3.8.2 FORMALDEHYDE RELEASE COMPOUNDS 434 14.3.8.3 PHENOL DERIVATIVES 434 14.3.8.4 COMPOUNDS DERIVED FROM CARBON DISULFIDE 435 14.3.8.5 ISOTHIAZOLES 435 14.3.8.6 FUNGICIDES 435 14.3.8.7 HYPOCHLORITES 435 14.3.8.8 HYDROGEN PEROXIDE, H 2 0 2 435 14.3.8.9 QUATERNARY AMMONIUM COMPOUNDS 436 14.4 NEAT CUTTING FLUIDS 436 14.4.1 CLASSIFICATION OF NEAT METALWORKING OILS ACCORDING TO SPECIFICATIONS 436 14.4.2 COMPOSITION OF NEAT METALWORKING FLUIDS 437 14.4.2.1 BASE OILS AND ADDITIVES 437 14.4.2.2 SIGNIFICANCEOFVISCOSITY ONTHE SELECTIONOFNEAT PRODUCTS 438 14.4.3 OIL MIST AND OIL EVAPORATION BEHAVIOR 439 14.4.3.1 EVAPORATION BEHAVIOR 439 14.4.3.2 LOW-MISTING OILS 440 14.4.3.3 THE CREATION OF OIL MIST 440 14.4.3.4 SEDIMENTATION AND SEPARATION OF OIL MISTS 441 14.4.3.5 TOXICITYOF OIL MIST 441 14.4.3.6 OIL MIST MEASUREMENT 443 14.4.3.7 OIL MIST INDEX 444 14.4.3.8 OIL MIST CONCENTRATION IN PRACTICE 444 14.5 MACHINING WITH GEOMETRICALLY DEFINED CUTTING EDGES 447 14.5.1 TURNING 447 14.5.2 DRILLING 447 14.5.3 MILLING 448 14.5.4 GEAR CUTTING 449 14.5.5 DEEP HOLE DRILLING 450 14.5.5.1 DEEP HOLE DRILLING METHODS 450 14.5.5.2 TASKS TO BE FULFILLED BY THE CUTTING FLUID 453 14.5.6 THREADING AND TAPPING 452 14.5.7 BROACHING 453 14.6 MACHINING WITH GEOMETRIE NON-DEFINED CUTTING EDGES 454 14.6.1 GRINDING 454 14.6.1.1 HIGH-SPEED GRINDING 455 14.6.1.2 GRINDING WHEEL ABRASIVE MATERIALS AND BONDINGS 456 14.6.1.3 REQUIREMENTS FOR GRINDING FLUIDS 456 14.6.1.4 SPECIAL WORKPIECE MATERIAL CONSIDERATIONS 457 14.6.1.5 CBN HIGH-SPEED GRINDING 457 XXII CONTENTS 14.6.1.6 HONING 458 14.6.1.7 HONING OILS 460 14.6.1.8 LAPPING 461 14.6.1.9 LAPPING POWDER AND CARRIER MEDIA 461 14.7 SPECIFIC MATERIAL REQUIREMENTS FOR MACHINING OPERATIONS 462 14.7.1 FERROUS METALS 462 14.7.1.1 STEEL 462 14.7.1.2 TOOL STEELS 462 14.7.1.3 HIGH-SPEED STEELS (HSS) 463 14.7.1.4 STAINLESS STEELS 463 14.7.1.5 CAST IRON 463 14.7.2 ALUMINUM 464 14.7.2.1 INFLUENCE OF THE TYPE OF ALUMINUM ALLOY 464 14.7.2.2 THE BEHAVIOR OF ALUMINUM DURING MACHINING 465 14.7.2.3 TOOL MATERIALS 467 14.7.3 MAGNESIUM AND ITS ALLOYS 468 14.7.4 COBALT 469 14.7.4.1 THE HEALTH AND SAFETY ASPECTS OF CARBIDES 469 14.7.4.2 USE OF CUTTING OILS IN CARBIDE MACHINING PROCESSES 470 14.7.5 TITANIUM 470 14.7.6 NICKEL AND NICKEL ALLOYS 471 14.8 METALWORKING FLUID CIRCULATION SYSTEM 472 14.8.1 METALWORKING FLUID SUPPLY 472 14.8.1.1 GRINDING 474 14.8.2 INDIVIDUALLY-FILLED MACHINES AND CENTRAL SYSTEMS 475 14.8.3 TRAMP OIL IN COOLANTS 476 14.8.4 SEPARATION OF SOLID PARTICLES 477 14.8.4.1 SWARF CONCENTRATION AND FILTER FINENESS 477 14.8.4.2 FUELL, PARTIAL OR MAIN FLOW SOLIDS SEPARATION 478 14.8.4.3 FILTRATION PROCESSES 479 14.8.4.4 SOLIDS SEPARATION EQUIPMENT 482 14.8.5 PLASTICS AND SEALING MATERIALS IN MACHINE TOOLS-COMPATIBILITY WITH CUTTING FLUIDS 487 14.8.6 MONITORING AND MAINTENANCE OF NEAT AND WATER-MISCIBLE CUTTING FLUIDS 488 14.8.6.1 STORAGEOF CUTTING FLUIDS 488 14.8.6.2 MIXING WATER-MISCIBLE CUTTING FLUIDS 489 14.8.6.3 MONITORING CUTTING FLUIDS 489 14.8.6.4 CUTTING FLUID MAINTENANCE 491 14.8.6.5 CORRECTIVE MAINTENANCE FOR NEAT AND WATER-MISCIBLE CUTTING FLUIDS 493 14.8.7 SPLITTING AND DISPOSAL 495 14.8.7.1 DISPOSAL OF CUTTING FLUIDS 495 14.8.7.2 EVALUATION CRITERIA FOR CUTTING FLUID WATER PHASES 496 14.8.7.3 ELECTROLYTE SEPARATION 497 14.8.7.4 EMULSION SEPARATION BY FLOTATION 499 CONTENTS XXIII 14.8.7.5 SPLITTING OF EMULSIONS WITH ADSORBENTS 499 14.8.7.6 SEPARATING WATER-MISCIBLE CUTTING FLUIDS BY THERMAL METHODS 500 14.8.7.7 ULTRAFILTRATION 500 14.8.7.8 EVALUATION OFDISPOSAL METHODS 502 14.9 COOLANT COSTS 503 14.9.1 COOLANT APPLICATION COSTS 503 14.9.1.1 INVESTMENT COSTS (DEPRECIATION, FINANCING COSTS, MAINTENANCE COSTS) 503 14.9.1.2 ENERGY COSTS 504 14.9.1.3 COOLANT AND COOLANT ADDITIVES 504 14.9.1.4 COOLANT MONITORING 504 14.9.1.5 OTHER AUXILIARIES 504 14.9.1.6 COOLANT SEPARATION AND DISPOSAL 504 14.9.2 COOLANT APPLICATION COSTS WITH CONSTANT SYSTEM 504 14.9.2.1 SPECIFIC COOLANT COSTS 504 14.9.2.2 OPTIMIZATION OF COOLANT USE BY COMPUTER 508 14.10 NEW TRENDS IN COOLANT TECHNOLOGY 530 14.10.1 OILLNSTEADOF EMULSION 510 14.10.1.1 FLUID FAMILIES AND MULTIFUNCTIONAL FLUIDS FOR MACHINE TOOLS 511 14.10.1.2 WASHING LINES 532 14.10.1.3 DE-OILING OF CHIPS AND MACHINED COMPONENTS 532 14.10.1.4 FUTURE PERSPECTIVES - UNIFLUID 533 14.10.2 MINIMUM QUANTITY LUBRICATION 533 14.10.2.1 CONSIDERATIONS WHEN DISPENSING WITH COOLANTS 534 14.10.2.2 MINIMUM QUANTITY LUBRICATION SYSTEMS 535 14.10.2.3 COOLANTS FOR MINIMUM QUANTITY LUBRICATION 536 14.10.2.4 OIL MIST TESTS WITH MINIMUM QUANTITY LUBRICATION 518 14.10.2.5 PRODUCT OPTIMIZATION OF A MINIMUM QUANTITY COOLANT MEDIUM FOR DRILLING 520 15 FORMING LUBRICANTS 15.1 SHEET METAL WORKING LUBRICANTS 522 THEO MANG, FRANZ KUBICKI, ACHIM LOSCH AND WOLFGANG BUSS 15.1.1 PROCESSES 523 15.1.2 BASIC TERMS IN FORMING PROCESSES 523 15.1.2.1 LATTICE STRUCTUREOF METALS 523 15.1.2.2 YIELD STRENGTH 524 15.1.2.3 STRAIN 524 15.1.2.4 FLOW CURVE 524 15.1.2.5 EFFICIENCY OF DEFORMATION, RESISTANCE TO FORMING, SURFACE PRESSURE 526 15.1.2.6 STRAIN RATE 526 15.1.2.7 ANISOTROPY, TEXTURE, R VALUE 526 15.1.3 DEEP DRAWING 527 XXIV CONTENTS 15.1.3.1 FRICTION AND LUBRICATION IN THE DIFFERENT AREAS OF A DEEP DRAWING OPERATION 527 15.1.3.2 SIGNIFICANCE OF LUBRICATION DEPENDENT UPON SHEET METAL THICKNESS, DRAWN-PART SIZE AND THE EFFICIENCY OF DEFORMATION 531 15.1.3.3 ASSESSMENT OF THE SUITABILITY OF LUBRICANTS FOR DEEP DRAWING 533 15.1.4 STRETCH DRAWING AND A COMBINATION OF STRETCH AND DEEP DRAWING 534 15.1.5 SHEAR CUTTING 535 15.1.5.1 STAMPING 536 15.1.5.2 FINEBLANKING 539 15.1.6 MATERIAL AND SURFACE MICROSTRUCTURE 541 15.1.6.1 MATERIAL 542 15.1.6.2 SURFACE MICROSTRUCTURE 542 15.1.7 TOOLS USED IN SHEET METAL FORMING OPERATIONS 543 15.1.8 LUBRICANTS FOR SHEET METAL FORMING 545 15.1.8.1 BEFORE FORMING 545 15.1.8.2 LUBRICANT BEHAVIOR DURING FORMING 548 15.1.8.3 AFTER FORMING 548 15.1.8.4 TRENDS IN SHEET METAL FORMING LUBRICANTS 549 15.1.9 CORROSION PROTECTION 550 15.1.9.1 CORROSION MECHANISMS 550 15.1.9.2 TEMPORARY CORROSION PROTECTION 551 15.1.9.3 CORROSION TESTS 553 15.1.10 REMOVALOF FORMING LUBRICANTS-INDUSTRIAL CLEANERS 553 15.1.10.1 INTERMEDIATE CLEANING IN MECHANICAL MANUFACTURE 554 15.1.10.2 CLEANING BEFORE HEAT TREATMENT AND SURFACE COATING 554 15.1.10.3 CLEANING DURING MAINTENANCE 555 15.1.10.4 CLEANING METHODS AND AGENTS 555 15.1.10.5 SYSTEMATIZATION OF CLEANERS 556 15.1.11 TESTING TRIBOLOGICAL CHARACTERISTICS 563 15.1.12 SHEET METAL FORMING IN AUTOMOBILE MANUFACTURING 565 15.1.12.1 PRELUBES 565 15.1.12.2 SKIN PASSING 567 15.1.12.3 COIL OILING 567 15.1.12.4 TRANSPORT AND STORAGE OF SHEET METAL 567 15.1.12.5 WASHINGOF STEEL STRIPS AND BLANKS 567 15.1.12.6 ADDITIONAL LUBRICATION 568 15.1.12.7 PRESSING 56S 15.1.12.8 TRANSPORT AND STORAGE OF PRESSED PARTS 570 15.1.12.9 WELDING AND BONDING 570 15.1.12.10 CLEANING AND PHOSPHATING 570 15.1.12.11 CATAPHORETIC PAINTING 571 15.1.12.12 SAVINGS POTENTIAL USING PRELUBES 571 15.1.12.13 DRY-FILM LUBRICANTS 571 CONTENTS XXV 15.2 LUBRICANTS FOR WIRE, TUBE, AND PROFILE DRAWING 573 THEO MANG AND WOLFGANG BUSS 15.2.1 FRICTION AND LUBRICATION, TOOLS, AND MACHINES 573 15.2.1.1 FORMING CLASSIFICATION 573 15.2.1.2 FRICTION AND LUBRICATION, MACHINES AND TOOLS WHEN WIRE DRAWING 574 15.2.1.3 DRAWING FORCE AND TENSION 575 15.2.1.4 DRAWING TOOL AND WEAR 577 15.2.1.5 WIRE CRACKS 579 15.2.1.6 HYDRODYNAMIC DRAWING 579 15.2.1.7 WIRE FRICTION ON CONE 579 15.2.1.8 LUBRICANT FEED IN WET DRAWING 582 15.2.1.9 DRY DRAWING 582 15.2.1.10 APPLYING LUBRICANT AS PASTES OR HIGH-VISCOSITY PRODUCTS 583 15.2.2 DRAWING COPPER WIRE 583 15.2.2.1 LUBRICANTS 584 15.2.2.2 LUBRICANT CONCENTRATION 585 15.2.2.3 SOLUBILITYOF COPPER REACTION PRODUCTS 586 15.2.2.4 WATER QUALITY AND ELECTROLYTE STABILITY 586 15.2.2.5 LABORATORY TESTING METHODS 587 15.2.2.6 LUBRICANT TEMPERATURE 588 15.2.2.7 INFLUENCE OF THE LUBRICANT ON WIRE ENAMELING 588 15.2.2.8 CIRCULATION SYSTEMS, CLEANING AND DISPOSAL OF DRAWING EMULSIONS 588 15.2.3 DRAWING OF STEEL WIRE 589 15.2.3.1 REQUIREMENTS 589 15.2.3.2 LUBRICANT CARRIER LAYERS 590 15.2.3.3 LIME AS A LUBRICANT CARRIER 590 15.2.3.4 BORAX AS LUBRICANT CARRIER 590 15.2.3.5 PHOSPHATE AS LUBRICANT CARRIER 590 15.2.3.6 OXALATE COATINGS AND SILICATES 591 15.2.3.7 LUBRICANTS FOR STEEL WIRE DRAWING 591 15.2.4 DRAWING ALUMINUM WIRE 593 15.2.4.1 DRAWING MACHINES AND LUBRICATION 593 15.2.4.2 LUBRICANTS FOR ALUMINUM WIRE DRAWING 593 15.2.5 WIRE FROM OTHER MATERIALS 594 15.2.5.1 STAINLESS STEEL 594 15.2.5.2 NICKEL 594 15.2.5.3 TUNGSTEN 595 15.2.6 PROFILE DRAWING 595 15.2.6.1 LUBRICATING TASKS IN PROFILE DRAWING 596 15.2.6.2 PRETREATMENT AND THE USE OF LUBRICANT WHEN PROFILE DRAWING STEEL 596 15.2.7 TUBE DRAWING 596 15.2.7.1 TUBE-DRAWING METHODS 597 15.2.7.2 TOOLS AND TOOL COATINGS 597 15.2.7.3 LUBRICANTS AND SURFACE PRETREATMENT FOR TUBE DRAWING 599 15.2.8 HYDROFORMING 601 XXVI CONTENTS 15.2.8.1 PROCESS PRINCIPLE 602 15.2.8.2 PROCESS CONFIGURATION 603 15.2.8.3 TRIBOLOGICAL ASPECTS OF HYDROFORMING 603 15.2.8.4 LUBRICANTS FOR HYDROFORMING 605 15.3 LUBRICANTS FOR ROLLING 606 THEO MANG AND WOLFGANG BUSS 15.3.1 GENERAL 606 15.3.1.1 ROLLING SPEED 607 15.3.1.2 RATIONALIZATION 607 15.3.1.3 SURFACE AND MATERIAL QUALITY 607 15.3.1.4 HYGIENIC COMMERCIAL REQUIREMENTS 607 15.3.2 FRICTION AND LUBRICATION WHEN ROLLING 608 15.3.3 ROLLING STEEL SHEET 611 15.3.3.1 HOT ROLLING 621 15.3.3.2 SHEET COLD ROLLING 613 15.3.3.3 FINEST SHEET COLD ROLLING 617 15.3.3.4 COLD ROLLING OF HIGH AUOY STEEL SHEET 618 15.3.4 ROLLING ALUMINUM SHEET 620 15.3.5 ALUMINUM HOT ROLLING 620 15.3.6 ALUMINUM COLD ROLLING 621 15.3.7 ROLLING OTHER MATERIALS 622 15.4 SOLID METAL FORMING LUBRICANTS (SOLID FORMING, FORGING AND EXTRUSION) 623 THEO MANG AND WOLFGANG BUSS 15.4.1 PROCESSES 623 15.4.1.1 UPSETTING 623 15.4.1.2 EXTRUSION 624 15.4.1.3 IMPRESSION DIE FORGING 624 15.4.1.4 OPEN DIE FORGING 624 15.4.2 FORMING TEMPERATURES 624 15.4.2.1 COLD 624 15.4.2.2 WARM 625 15.4.2.3 HOT 625 15.4.3 FRICTION AND LUBRICATION WITH COLD EXTRUSION AND COLD FORGING 625 15.4.3.1 FRICTION AND LUBRICANT TESTING METHODS 626 15.4.3.2 SELECTION CRITERIA FOR LUBRICANTS AND LUBRICATION TECHNOLOGY 628 15.4.3.3 LUBRICATING OILS FOR COLD EXTRUSION OF STEEL (EXTRUSION OILS) 629 15.4.3.4 PHOSPHATE COATINGS AND SOAP LUBRICANTS FOR COLD EXTRUSION OF STEEL 631 15.4.3.5 SOLID LUBRICANTS FOR COLD EXTRUSION OF STEEL 634 15.4.4 WARM EXTRUSION AND FORGING 636 15.4.4.1 TEMPERATURE RANGE UP TO 350 C 638 15.4.4.2 TEMPERATURE RANGE 350 TO 500C 638 CONTENTS XXVII 15.4.4.3 TEMPERATURE RANGE 500 TO 600 C 638 15.4.4.4 TEMPERATURE RANGE 600 C 638 15.4.5 LUBRICATION WHEN HOT FORGING 639 15.4.5.1 DEMANDS ON HOT FORGING LUBRICANTS 640 15.4.5.2 LUBRICANT TESTING METHODS 641 15.4.6 HOT FORGING OF STEEL 641 15.4.6.1 LUBRICANTS 641 15.4.7 ALUMINUM FORGING 643 15.4.8 ISOTHERMAL AND HOT DIE FORGING 644 15.4.9 APPLICATION AND SELECTION OF LUBRICANT 645 16 LUBRICATING CREASES 648 WILFRIED DRESEL AND ROLF-PETER HECKLER 16.1 INTRODUCTION 648 16.1.1 DEFINITION 648 16.1.2 HISTORY 648 16.1.3 ADVANTAGES OVER LUBRICATING OILS 649 16.1.4 DISADVANTAGES 649 16.1.5 CLASSIFICATION 650 16.2 THICKENERS 651 16.2.1 SIMPLE SOAPS 651 16.2.1.1 SOAP ANIONS 651 16.2.1.2 SOAP CATIONS 651 16.2.1.3 LITHIUM SOAPS 652 16.2.1.4 CALCIUM SOAPS 653 16.2.1.5 SODIUM SOAPS 654 16.2.1.6 OTHER SOAPS 655 16.2.1.7 CATION MIXED SOAPS MIX/M 2 X 655 16.2.1.8 ANION MIXED SOAPS MXJ/MX 2 656 16.2.2 COMPLEX SOAPS 656 16.2.2.1 LITHIUM COMPLEX SOAPS 656 16.2.2.2 CALCIUM COMPLEX SOAPS 658 16.2.2.3 CALCIUM SULFONATE COMPLEX SOAPS 659 16.2.2.4 ALUMINUM COMPLEX SOAPS 659 16.2.2.5 OTHER COMPLEX SOAPS 660 16.2.3 OTHER IONIC ORGANIC THICKENERS 660 16.2.4 NON-IONIC ORGANIC THICKENERS 660 16.2.4.1 DIUREAS AND TETRAUREAS 663 16.2.4.2 OTHER NON-IONIC ORGANIC THICKENERS 662 16.2.5 INORGANIC THICKENERS 662 16.2.5.1 CLAYS 662 16.2.5.2 HIGHLY DISPERSED SILICIC ACID 662 16.2.6 MISCELLANEOUS THICKENERS 663 16.2.7 TEMPORARILY THICKENED FLUIDS 663 XXVIII CONTENTS 16.3 BASE OILS 664 16.3.1 MINERAL OILS 665 16.3.2 SYNTHETIC BASE OILS 665 16.3.2.1 SYNTHETIC HYDROCARBONS 665 16.3.2.2 OTHER SYNTHETIC BASE OILS 666 16.3.2.3 IMMISCIBLE BASE OIL MIXTURES 666 16.4 GREASE STRUCTURE 666 16.5 ADDITIVES 667 16.5.1 STRUCTURE MODIFIERS 668 16.5.2 ANTIRUST ADDITIVES (CORROSION INHIBITORS) 668 16.5.3 EXTREME PRESSURE AND ANTI-WEAR ADDITIVES 668 16.5.4 SOLID LUBRICANTS 669 16.5.5 FRICTION MODIFIERS 669 16.5.6 NANOMATERIALS 670 16.6 MANUFACTURE OF GREASES 670 16.6.1 METAL SOAP-BASED GREASES 670 16.6.1.1 BATCH PRODUCTION WITH PREFORMED METAL SOAPS 670 16.6.1.2 BATCH PRODUCTION WITH METAL SOAPS PREPARED IN-SITU 671 16.6.1.3 CONTINUOUS PRODUCTION 672 16.6.2 OLIGOUREA GREASES 673 16.6.3 GEL GREASES 673 16.7 GREASE RHEOLOGY 674 16.8 GREASE PERFORMANCE 674 16.8.1 TEST METHODS 677 16.8.2 ANALYTICAL METHODS 678 16.9 APPLICATIONS OF GREASES 679 16.9.1 ROLLING BEARINGS 679 16.9.1.1 RE-LUBRICATION INTERVALS 680 16.9.2 CARS, TRUCKS, CONSTRUCTION VEHICLES 683 16.9.3 STEEL MILLS 685 16.9.4 MINING 686 16.9.5 RAILROAD, RAILWAY 687 16.9.6 GEARS 687 16.9.7 FOOD-GRADE APPLICATIONS 688 16.9.8 TEXTILE MACHINES 688 16.9.9 APPLICATION TECHNIQUES 688 16.9.10 SPECIAL AND LIFETIME APPLICATIONS 689 16.9.11 APPLICATIONS WITH POLYMERIE MATERIALS 689 16.10 GREASE MARKET 690 16.11 ECOLOGY AND THE ENVIRONMENT 691 16.12 GREASE TRIBOLOGY 693 CONTENTS XXIX 17 SOLID LUBRICATION 694 CHRISTIAN BUSCH 17.1 CLASSIFICATION OF SOLID LUBRICANTS 694 17.1.1 CLASS 1: STRUCTURAL LUBRICANTS 695 17.1.2 CLASS 2: MECHANICAL LUBRICANTS 696 17.1.2.1 SELF-LUBRICATING SUBSTANCES 696 17.1.2.2 SUBSTANCES WITH LUBRICATING PROPERTIES THAT NEED A SUPPORTING MEDIUM 698 17.1.2.3 SUBSTANCES WITH INDIRECT LUBRICATING PROPERTIES BASED ON THEIR HARDNESS (PHYSICAL VAPOR DEPOSITION (PVD), CHEMICAL VAPOR DEPOSITION (CVD), AND DIAMOND-LIKE CARBON (DLC) LAYERS) 699 17.1.3 CLASS 3: SOAPS 699 17.1.4 CLASS 4: CHEMKALLY ACTIVE LUBRICANTS 699 17.2 CHARACTERISTICS 700 17..2.1 THE CRYSTAL STRUCTURES OF LAMELLAR SOLID LUBRICANTS 700 17.2.1.1 GRAPHITE 700 17.2.1.2 MOLYBDENUM DISULFIDE 700 17..2.2 HEAT STABILITY 701 17.2.3 MELTING POINT 701 17.2.4 THERMAL CONDUCTIVITY 701 17.2.5 ADSORBED FILMS 702 17.2.6 MECHANICAL PROPERTIES 702 17.2.7 CHEMICAL STABILITY 702 17.2.8 PURITY 702 17.2.9 PARTICLE SIZE 703 17.3 PRODUCTS CONTAINING SOLID LUBRICANTS 703 17.3.1 POWDERS 703 17.3.1.1 SOLID LUBRICANTS IN CARRYING MEDIA 704 17.3.2 DISPERSIONS AND SUSPENSIONS 704 17.3.3 GREASES AND GREASE PASTES 704 17.3.4 PASTES 706 17.3.5 DRY-FILM LUBRICANTS 706 17.4 INDUSTRIAL USESOF PRODUCTS CONTAINING SOLID LUBRICANTS 710 17.4.1 SCREW LUBRICATION 712 17.4.2 ROLLER-BEARING LUBRICATION 712 17.4.3 SLIDE BEARING, SLIDE GUIDEWAY, AND SLIDE SURFACE LUBRICATION 713 17.4.4 CHAIN LUBRICATION 713 17.4.5 PLASTIC AND ELASTOMER LUBRICATION 713 18 LABORATORY METHODS FOR TESTING LUBRICANTS 725 SIEGFRIED NOLL AND ROMAN MUELLER 18.1 18.2 18.3 INTRODUCTION 725 DENSITY 725 VISCOSITY 726 XXX CONTENTS 18.3.1 CAPILLARY VISCOMETERS 716 18.3.2 ROTARY VISCOMETERS 716 18.4 REFRACTIVE INDEX 717 18.5 STRUCTURAL ANALYSES 717 18.6 FLASH POINT 717 18.7 SURFACE PHENOMENA 718 18.7.1 AIR RELEASE 718 18.7.2 WATER SEPARATION AND DEMULSIBILITY 728 18.7.3 FOAMING CHARACTERISTICS 719 18.8 CLOUD POINT, POUR POINT 719 18.9 ANILINE POINT 719 18.10 WATER CONTENT 719 18.11 ASH CONTENT 720 18.12 ACIDITY, ALKALINITY 720 18.13 AGING TESTS 721 18.14 HYDROLYTIC STABILITY 721 18.15 CORROSION TESTS 722 18.16 OIL COMPATIBILITY OF SEALS AND INSULATING MATERIALS 723 18.17 EVAPORATION LOSS 723 18.18 ANALYSIS AND TESTINGOF LUBRICATING GREASES 724 18.18.1 CONSISTENCY 724 18.18.2 DROPPING POINT 724 18.18.3 OIL SEPARATION 724 18.18.4 SHEAR STABILITY OF GREASES 724 18.18.4.1 PROLONGED GREASE WORKING 724 18.18.4.2 ROLL STABILITY OF LUBRICATING GREASES 725 18.18.5 HIGH-TEMPERATURE PERFORMANCE 725 18.18.6 WHEEL BEARING LEAKAGE 725 18.18.6.1 LEAKAGE TENDENCY OF AUTOMOTIVE WHEEL BEARING GREASES 725 18.18.6.2 WHEEL-BEARING LEAKAGE UNDER ACCELERATED CONDITIONS 725 18.18.7 WHEEL-BEARING LIFE 726 18.18.8 WATER RESISTANCE 726 18.18.8.1 WATER WASHOUT CHARACTERISTICS 726 18.18.8.2 WATER SPRAY-OFF RESISTANCE 726 18.18.9 OXIDATION STABILITY OF LUBRICATING GREASES BY THE OXYGEN PRESSURE-VESSEL METHOD 726 18.18.10 CORROSION-PREVENTIVE CHARACTERISTICS 727 18.18.10.1 RUSTTEST 727 18.18.10.2 EMCORTEST 727 18.18.10.3 COPPER CORROSION 727 18.19 LIST OF EQUIVALENT STANDARDIZED METHODS FOR TESTING LUBRICANTS 728 19 MECHANICAL-DYNAMIC TEST METHODS FOR LUBRICANTS 736 THORSTEN BARTELS CONTENTS XXXI 19.1 TRIBOLOGICAL SYSTEM CATEGORIES WITHIN LUBRICANT TESTS 736 19.2 SIMPLE MECHANICAL-DYNAMIC LUBRICANT TEST MACHINES 737 19.2.1 FOUR-BALL APPARATUS 737 19.2.2 REICHERT S FRICTION-WEAR BALANCE, BRUGGER APPARATUS 740 19.2.3 FALEX TEST MACHINES 741 19.2.3.1 FALEX BLOCK-ON-RING TEST MACHINE 741 19.2.3.2 THE FALEX PIN AND VEE BLOCK TEST MACHINE 742 19.2.3.3 FALEX HIGH-PERFORMANCE MULTISPECIMEN TEST MACHINE 743 19.2.3.4 FALEX TAPPING TORQUE TEST MACHINE 743 19.2.4 TIMKEN TEST MACHINE 744 19.2.5 HIGH-FREQUENCY RECIPROCATING TEST MACHINES 745 19.2.5.1 HIGH-FREQUENCY RECIPROCATING RIG (HFRR) 745 19.2.5.2 HIGH-FREQUENCY, LINEAR-OSCILLATION TEST MACHINE (SRV) 746 19.2.5.3 MINI TRACTION MACHINE (MTM) 747 19.2.6 LOW-VELOCITY FRICTION APPARATUS (LVFA), TRIBOMETER 748 19.2.7 DIESEL INJECTOR APPARATUS 748 19.3 PERFORMANCE TESTS FOR GEAR OIL APPLICATIONS 749 19.3.1 FZG GEAR-TEST RIG 750 19.3.1.1 FZG EP TESTS - SCUFFING 750 19.3.1.2 FZG HIGH-EP TESTS - SCUFFING LOAD CAPACITY 753 19.3.1.3 FZG PITTING TESTS 753 19.3.1.4 FZG MICRO-PITTING TESTS 754 19.3.1.5 FZG WEAR TESTS 755 19.3.1.6 FZG GEAR-EFFICIENCY TESTS 756 19.3.1.7 FZG SYNTHETIC OIL AGEING TESTS 757 19.4 PERFORMANCE TESTS FOR ROLLER BEARING APPLICATIONS 758 19.4.1 FAG ROLLER BEARING TEST APPARATUS FE8 758 19.4.2 FAG ROLLER BEARING TEST APPARATUS FE9 760 19.5 PERFORMANCE TESTS FOR SYNCHRONIZER APPLICATIONS 762 19.5.1 AREA OF APPLICATION 762 19.5.2 FUNCTION OF THE SYNCHRONIZER 762 19.5.3 STANDARDIZED TEST RIGS AND TEST METHODS 763 19.5.3.1 \|X-COMB SYNCHRONIZER TESTING MACHINE 764 19.5.3.2 FZG SSP180 SYNCHRONIZER TESTING MACHINE 766 19.6 PERFORMANCE TESTS FOR AUTOMATIC TRANSMISSIONS 768 19.6.1 AREA OF APPLICATION 768 19.6.2 FUNCTION OF FRICTION DISKS AND FLUID 768 19.6.3 STANDARDIZED TEST RIGS AND TEST METHODS 770 19.6.3.1 SAE 2 MACHINE 770 19.6.3.2 DKA MACHINE 770 19.6.3.3 ZF GK TEST BENCH 2 772 19.7 PERFORMANCE TESTS FOR CONTINUOUSLY VARIABLE TRANSMISSIONS 774 XXXII CONTENTS 197.1 FIELD OF APPLICATION 774 19.7.2 FUNCTION OF CHAIN, PUSH-BELT AND FLUID 774 19.7.3 STANDARDIZED TEST RIGS AND TEST METHODS 775 19.7.3.1 ZF UNIVERSAL VARIATOR TEST BENCH 775 19.7.3.2 VAN DOORNE TEST BENCH 777 19.8 PERFORMANCE TESTS FOR HYDRAULIC FLUID APPLICATIONS 777 19.8.1 FIELD OF APPLICATION 777 19.8.2 FUNCTION OF VANE PUMPS 778 19.8.3 STANDARDIZED VANE PUMP TEST MACHINES AND TEST METHODS 778 19.8.4 FUNCTION OF AXIAL PISTON PUMPS 779 19.8.5 STANDARDIZED AXIAL PISTON PUMP TEST MACHINES AND TEST METHODS 780 19.8.6 NONSTANDARDIZED SPECIALIZED TESTING, EFFICIENCY TESTS 782 19.8.7 HYBRID PUMP TESTING 782 19.9 OTHER STANDARDIZED AND NON-STANDARDIZED TEST METHODS AND TEST MACHINES FOR LUBRICANTS 783 19.10 INTERPRETATION AND PRECISION OF LUBRICANT TESTS 784 REFERENCES 786 SUBJECT INDEX 837
adam_txt	LUBRICANTS AND LUBRICATION EDITED BY THEO MANG AND WILFRIED DRESEL SECOND, COMPLETELY REVISED AND EXTENDED EDITION BICENTENNIAL BICENTENNIAL WILEY-VCH VERLAG GMBH & CO. KGAA VII CONTENTS LIST OF CONTRIBUTORS V PREFACE, FOREWORD 2ND EDITION XXXIII AWORDOFTHANKS XXXV LIST OF ABBREVIATIONS XXXVII 1 1.1 1.2 1.3 1.4 LUBRICANTS AND THEIR MARKET 1 THEO MANG PREFACE 1 LUBRICANT SALES 2 THE LUBRICANTS INDUSTRY 3 LUBRICANT SYSTEMS 5 2 LUBRICANTS IN THE TRIBOLOGICAL SYSTEM 7 THEO MANG 2.1 LUBRICANTS AS PART OF TRIBOLOGICAL RESEARCH 7 2.2 THE TRIBOLOGICAL SYSTEM 8 2.3 FRICTION 8 2.3.1 TYPES OF FRICTION 9 2.3.1.1 SLIDING FRICTION 9 2.3.1.2 ROLLING FRICTION 10 2.3.1.3 STATIC FRICTION 10 2.3.1.4 KINETIC FRICTION 10 2.3.1.5 STICK-SLIP 10 2.3.2 FRICTION AND LUBRICATION CONDITIONS 12 2.3.2.1 SOLID FRICTION (DRY FRICTION) 12 2.3.2.2 BOUNDARY FRICTION 12 2.3.2.3 FLUID FRICTION 13 2.3.2.4 MIXED FRICTION 13 2.3.2.5 SOLID LUBRICANT FRICTION 13 LUBRICANTS AND LUBRICATION. ZND ED. EDITED BY TH. MANG AND W. DRESEL COPYRIGHT 2007 WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 978-3-527-31497-3 VIII CONTENTS 2.3.2.6 STRIBECK DIAGRAM 14 2.3.2.7 HYDRODYNAMIC LUBRICATION 14 2.3.2.8 ELASTO-HYDRODYNAMIC LUBRICATION (EHD REGIME) 15 2.3.2.9 THERMO-ELASTO-HYDRODYNAMIC LUBRICATION (TEHD) 15 2.4 WEAR 17 2.4.1 WEAR MECHANISMS 17 2.4.1.1 ABRASION 17 2.4.1.2 ADHESION 17 2.4.1.3 TRIBOCHEMICAL REACTIONS 17 2.4.1.4 SURFACE FATIGUE 17 2.4.1.5 EROSION 18 2.4.1.6 FRETTING 18 2.4.1.7 CAVITATION 18 2.4.2 TYPES OF WEAR 18 2.4.3 THE WEAR PROCESS 18 IAA TRIBOMUTATION 19 2.4.5 NANOTRIBOLOGY 20 2.4.6 TRIBOSYSTEMS OF TOMORROW 22 3 RHEOLOGY OF LUBRICANTS 23 THEO MANG 3.1 VISCOSITY 23 3.2 INFLUENCE OF TEMPERATIIRE ON VISCOSITY (V-T BEHAVIOR) 25 3.2.1 VISCOSITY INDEX 26 3.3 VISCOSITY-PRESSURE DEPENDENCY 27 3.4 THE EFFECT OF SHEAR RATE ON VISCOSITY 28 3.5 SPECIAL RHEOLOGICAL EFFECTS 30 3.5.1 GREASES 31 3.6 VISCOSITY GRADES 31 3.6.1 ISO VISCOSITY GRADES 32 3.6.2 OTHER VISCOSITY GRADES 32 3.6.2.1 ENGINE OILS 32 3.6.2.2 AUTOMOTIVE GEAR OILS 32 3.6.2.3 INDUSTRIAL GEAR OILS 32 3.6.2.4 VISCOSITY GRADES FOR BASE OILS 33 3.6.2.5 COMPARISON OF VISCOSITY GRADES 33 4 BASE OILS 34 THEO MANG AND GEORG LINGG 4.1 BASE OILS- A HISTORICAL REVIEW AND OUTLOOK 34 4.2 CHEMICAL CHARACTERIZATION OF MINERAL BASE OILS 35 4.2.1 ROUGH CHEMICAL CHARACTERIZATION 35 4.2.1.1 VISCOSITY-GRAVITY CONSTANT (VGC) 35 4.2.1.2 ANILINE POINT 35 4.2.2 CARBON DISTRIBUTION 36 4.2.3 HYDROCARBON COMPOSITION 36 4.2.4 POLYCYCLIC AROMATICS IN BASE OILS 36 4.2.4.1 AROMATICS IN WHITE MINERAL OILS 37 4.3 REFINING 38 4.3.1 DISTILLATION 39 4.3.2 DE-ASPHALTING 39 4.3.3 TRADITIONAL REFINING PROCESSES 40 4.3.3.1 ACID REFINING 41 4.3.3.2 SOLVENT EXTRACTION 41 4.3.4 SOLVENT DEWAXING 43 4.3.5 FINISHING 44 4.3.5.1 LUBE CRUDES 44 4.4 BASE OIL MANUFACTURING BY HYDROGENATION AND HYDROCRACKING 45 4.4.1 MANUFACTURING NAPHTHENIC BASE OILS BY HYDROGENATION 46 4.4.2 PRODUCTION OF WHITE OILS 48 4.4.3 LUBE HYDROCRACKING 49 4.4.4 CATALYTIC DEWAXING 50 4.4.5 WAX ISOMERIZATION 52 4.4.6 HYBRID LUBE OIL PROCESSING 52 4.4.7 ALL-HYDROGEN ROUTE 53 4.4.8 GAS-TO-LIQUIDS CONVERSION TECHNOLOGY 55 4.5 BOILING AND EVAPORATION BEHAVIOROF BASE OILS 55 4.6 BASE OIL CATEGORIES AND EVALUATION OF VARIOUS PETROLEUM BASE OILS 59 5 SYNTHETIC BASE OILS 63 WILFRIED DRESEL 5.1 SYNTHETIC HYDROCARBONS 64 5.1.1 POLYALPHAOLEFINS 65 5.1.2 POLYINTERNALOLEFINS 67 5.1.3 POLYBUTENES 68 5.1.4 ALKYLATED AROMATICS 69 5.1.5 OTHER HYDROCARBONS 70 5.2 HALOGENATED HYDROCARBONS 71 5.3 SYNTHETIC ESTERS 71 5.3.1 ESTERS OF CARBOXYLICACIDS 71 5.3.1.1 DICARBOXYLIC ACID ESTERS 72 5.3.1.2 POLYOL ESTERS 73 5.3.1.3 OTHER CARBOXYLIC ESTERS 74 5.3.1.4 COMPLEX ESTERS 75 5.3.1.5 FLUORINATED CARBOXYLIC ACID ESTERS 76 5.3.2 PHOSPHATE ESTERS 76 5.4 POLYALKYLENE GLYCOLS 77 5.5 OTHER POLYETHERS 79 X I CONTENTS 5.5.1 PERFLUORINATED POLYETHERS 79 5.5.2 POLYPHENYL ETHERS 80 5.5.3 POLYSILOXANES (SILICONE OILS) 81 5.6 OTHER SYNTHETIC BASE OILS 83 5.7 COMPARISONOF SYNTHETIC BASE OILS 87 5.8 MIXTURES OF SYNTHETIC LUBRICANTS 87 6 ADDITIVES 88 JUERGEN BRAUN 6.1 ANTIOXIDANTS 89 6.1.1 MECHANISMOFOXIDATION AND ANTIOXIDANTS 89 6.1.2 COMPOUNDS 91 6.1.2.1 PHENOLIC ANTIOXIDANTS 91 6.1.2.2 AROMATIC AMINES 91 6.1.2.3 COMPOUNDS CONTAINING SULFUR AND PHOSPHORUS 92 6.1.2.4 ORGANOSULFUR COMPOUNDS 92 6.1.2.5 ORGANOPHOSPHORUS COMPOUNDS 93 6.1.2.6 OTHER COMPOUNDS 93 6.1.2.7 SYNERGISTIC MIXTURES 93 6.1.3 TESTING OF THE OXIDATION STABILITY 93 6.2 VISCOSITY MODIFIERS 94 6.2.1 PHYSICAL DESCRIPTION OF VISCOSITY INDEX 94 6.2.2 VI IMPROVEMENT MECHANISMS 94 6.2.3 STRUCTURE AND CHEMISTRY OF VISCOSITY MODIFIERS 96 6.3 POURPOINT DEPRESSANTS (PPD) 97 6.4 DETERGENTS AND DISPERSANTS 99 6.4.1 MECHANISMOF DD ADDITIVES 100 6.4.2 METAL-CONTAINING COMPOUNDS (DETERGENTS) 100 6.4.2.1 PHENATES 200 6.4.2.2 SALICYLATES 100 6.4.2.3 THIOPHOSPHONATES 101 6.4.2.4 SULFONATES 102 6.4.3 ASHLESS DISPERSANTS (AD) 103 6.5 ANTIFOAM AGENTS 305 6.5.1 SILICON DEFOAMERS 105 6.5.2 SILICONE-FREE DEFOAMERS 106 6.6 DEMULSIFIERS AND EMULSIFIERS 106 6.6.1 DEMULSIFIERS 206 6.6.2 EMULSIFIERS 206 6.7 DYES 207 6.8 ANTIWEAR (AW) AND EXTREME PRESSURE (EP) ADDITIVES 107 6.8.1 FUNCTION OF AW/EP ADDITIVES 207 6.8.2 COMPOUNDS 208 6.8.2.1 PHOSPHORUS COMPOUNDS 208 CONTENTS XI 6.8.2.2 COMPOUNDS CONTAINING SULFUR AND PHOSPHORUS 109 6.8.2.3 COMPOUNDS CONTAINING SULFUR AND NITROGEN 110 6.8.2.4 SULFUR COMPOUNDS 111 6.8.2.5 PEP ADDITIVES 112 6.8.2.6 CHLORINE COMPOUNDS 112 6.8.2.7 SOLID LUBRICATING COMPOUNDS 113 6.9 FRICTION MODIFIERS (FM) 113 6.10 CORROSION INHIBITORS 114 6.10.1 MECHANISMOF CORROSION INHIBITORS 114 6.10.2 ANTIRUST ADDITIVES (FERROUS METALS) 115 6.10.2.1 SULFONATES 115 6.10.2.2 CARBOXYLIC ACID DERIVATIVES 115 6.10.2.3 AMINE NEUTRALIZED ALKYLPHOSPHORIC ACID PARTIAL ESTERS 116 6.10.2.4 VAPOR PHASE CORROSION INHIBITORS 116 6.10.3 METAL PASSIVATORS (NON-FERROUS METALS) 117 7 LUBRICANTS IN THE ENVIRONMENT 119 ROLF LUTHER 7.1 DEFINITION OF 'ENVIRONMENTALLY FRIENDLY LUBRICANTS' 229 7.2 CURRENT SITUATION 120 7.2.1 STATISTICAL DATA 120 7.2.2 ECONOMIC CONSEQUENCES AND SUBSTITUTION POTENTIAL 121 7.2.3 AGRICULTURE, ECONOMY, AND POLITICS 123 7.2.4 POLITICAL INITIATIVES 124 7.3 TESTS TO EVALUATE BIOTIC POTENTIAL 125 7.3.1 BIODEGRADATION 125 7.3.2 ECOTOXICITY 126 7.3.3 EMISSION THRESHOLDS 127 7.3.4 WATER POLLUTION 127 7.3.4.1 THE GERMAN WATER HAZARDOUS CLASSES 127 7.3.4.2 GERMAN REGULATIONS FOR USING WATER-ENDANGERING LUBRICANTS (VAWS) 228 7.4 ENVIRONMENTAL LEGISLATION 1: REGISTRATION, EVALUATION AND AUTHORIZATION OF CHEMICALS (REACH) 230 7.4.1 REGISTRATION 232 7.4.2 EVALUATION 232 7.4.2 AUTHORIZATION 233 7.4.2 REGISTRATION OBLIGATIONS 235 7.5 GLOBALLY HARMONIZED SYSTEM OF CLASSIFICATION AND LABELING (GHS) 236 7.6 ENVIRONMENTAL LEGISLATION 2: DANGEROUS PREPARATIONS DIRECTIVE (1999/45/EC) 239 7.7 ENVIRONMENTAL LEGISLATION 3: REGULAER USE 240 7.7.1 ENVIRONMENTAL LIABILITY LAW 242 7.7.2 THE CHEMICALS LAW, HAZARDOUS SUBSTANCES LAW 242 XII \| CONTENTS 7.7.3 TRANSPORT REGULATIONS 142 7.7.4 DISPOSAL (WASTE AND RECYCLING LAWS) 142 7.7.5 DISPOSAL OPTIONS FOR 'NOT WATER POLLUTANT' VEGETABLE OILS 143 7.8 ENVIRONMENTAL LEGISLATION 4: EMISSIONS 144 7.8.1 AIR POLLUTION 144 7.8.2 WATER POLLUTION 144 7.8.3 GERMAN LAW FOR SOIL PROTECTION 145 7.8.4 GERMAN WATER LAW 146 7.8.5 WASTE WATER CHARGES 147 7.8.6 CLEAN AIR: GERMAN EMISSIONS LAW 147 7.8.7 DRINKING WATER DIRECTIVE 147 7.9 STANDARDIZATION OF ENVIRONMENTALLY COMPATIBLE HYDRAULIC FLUIDS 248 7.9.1 THE GERMAN REGULATION VDMA 24568 148 7.9.2 ISO REGULATION 15380 148 7.10 ENVIRONMENTAL SEAL 353 7.10.1 GLOBAL ECO-LABELING NETWORK 153 7.10.2 EUROPEAN ECO-LABEL 153 7.10.3 THE GERMAN 'BLUE ANGEL' 157 7.10.4 NORDIC COUNTRIES (NORWAY, SWEDEN, FINLAND, ICELAND) -'WHITE SWAN' 258 7.10.4.1 REQUIREMENTS CONCEMING RENEWABLE RESOURCES 160 7.10.4.2 REQUIREMENTS CONCEMING RE-REFINED OIL 260 7.10.4.3 REQUIREMENTS CONCEMING ENVIRONMENTALLY HARMFUL COMPONENTS 260 7.10.4.4 REQUIREMENTS FOR HYDRAULIC FLUIDS, MOULD OIL, METALWORKING FLUIDS 160 7.10.5 THE CANADIAN 'ENVIRONMENTAL CHOICE' (MAPLE LEAF) 260 7.10.6 OTHER ECO-LABELS 262 7.10.6.1 AUSTRIA 262 7.10.6.2 FRANCE 262 7.10.6.3 JAPAN 163 7.10.6.4 USA 263 7.10.6.5 THE NETHERLANDS 263 7.11 BASE FLUIDS 264 7.11.1 BIODEGRADABLE BASE OILS FOR LUBRICANTS 264 7.11.2 SYNTHETIC ESTERS 265 7.11.3 POLYGLYCOLS 266 7.11.4 POLYALPHAOLEFINS 266 7.11.5 RELEVANT PROPERTIES OF ESTER OILS 266 7.11.5.1 EVAPORATION LOSS 266 7.11.5.2 VISCOSITY-TEMPERATURE BEHAVIOR 266 7.11.5.3 BOUNDARY LUBRICATION 267 7.12 ADDITIVES 267 7.12.1 EXTREME PRESSURE/ANTIWEAR ADDITIVES 267 7.12.2 CORROSION PROTECTION 268 7.12.3 ANTIOXIDANTS 168 CONTENTS XIII 7.13 PRODUCTS (EXAMPLES) 168 7.13.1 HYDRAULIC FLUIDS 169 7.13.2 METAL WORKING OIL 169 7.13.3 OIL-REFRESHING SYSTEM 170 7.14 SAFETY ASPECTS OF HANDLING LUBRICANTS (WORKING MATERIALS) 171 7.14.1 TOXICOLOGICAL TERMINOLOGY AND HAZARD INDICATORS 171 7.14.1.1 ACUTE TOXICITY 171 7.14.1.2 SUBCHRONIC AND CHRONIC TOXICITY 172 7.14.1.3 POISON CATEGORIES 172 7.14.1.4 CORROSIVE, CAUSTIC 172 7.14.1.5 EXPLOSION AND FLAMMABILITY 172 7.14.1.6 CARCINOGENIC 173 7.14.1.7 TERATOGENS, MUTAGENS 273 7.14.2 MAK (MAXIMUM WORKPLACE CONCENTRATION) VALUES 173 7.14.3 POLYCYCLIC AROMATIC HYDROCARBONS (PAK, PAH, PCA) 174 7.14.4 NITROSAMINES IN CUTTING FLUIDS 274 7.14.5 LAW ON FLAMMABLE FLUIDS 175 7.15 SKIN PROBLEMS CAUSED BY LUBRICANTS 276 7.15.1 STRUCTURE AND FUNCTION OFTHE SKIN 276 7.15.2 SKIN DAMAGE 277 7.15.2.1 OIL ACNE (PARTICLE ACNE) 277 7.15.2.2 OIL ECZEMA 278 7.15.3 TESTING SKIN COMPATIBILITY 279 7.15.4 SKIN FUNCTION TESTS 280 7.15.5 SKIN CARE AND SKIN PROTECTION 282 8 DISPOSALOF USED LUBRICATING OILS 283 THEO MANG 8.1 POSSIBLE USES OF WASTE OIL 284 8.2 LEGISLATIVE INFLUENCES ON WASTE OIL COUECTION AND RECONDITIONING 284 8.3 RE-REFMING 285 8.3.1 SULFURIC ACID REFINING (MEINKEN) 285 8.3.2 PROPANE EXTRACTION PROCESS (IFP, SNAMPROGETTI) 286 8.3.3 MOHAWK TECHNOLOGY (CEP-MOHAWK) 287 8.3.4 KTI PROCESS 287 8.3.5 PROP PROCESS 287 8.3.6 SAFETY KLEEN PROCESS 288 8.3.7 DEA TECHNOLOGY 289 8.3.8 OTHER RE-REFINING TECHNOLOGIES 290 9 LUBRICANTS FOR INTERNAL COMBUSTION ENGINES 292 MANFRED HARPERSCHEID AND JUERGEN OMEIS 9.1 FOUR-STROKE ENGINE OILS 292 9.1.1 GENERAL OVERVIEW 292 XIV CONTENTS 9.1.1.1 FUNDAMENTAL PRINCIPLES 192 9.1.1.2 VISCOSITY GRADES 193 9.1.1.3 PERFORMANCE SPECIFICATIONS 195 9.1.1.4 FORMULATION OF ENGINE OILS 396 9.1.1.5 ADDITIVES 196 9.1.1.6 PERFORMANCE ADDITIVES 196 9.1.1.7 VISCOSITY IMPROVERS 197 9.1.2 CHARACTERIZATION AND TESTING 197 9.1.2.1 PHYSICAL AND CHEMICAL TESTING 198 9.1.2.2 ENGINE TESTING 198 9.1.2.3 PASSENGER CAR ENGINE OILS 200 9.1.2.4 ENGINE OIL FOR COMMERCIAL VEHICLES 201 9.1.3 CLASSIFICATION BY SPECIFICATION 202 9.1.3.1 MIL SPECIFICATIONS 202 9.1.3.2 API AND ILSAC CLASSIFICATION 203 9.1.3.3 CCMC SPECIFICATIONS 205 9.1.3.4 ACEA SPECIFICATIONS 206 9.1.3.5 MANUFACTIIRERS'APPROVAL OF SERVICE ENGINE OILS 209 9.1.3.6 FUTURE TRENDS 214 9.1.3.7 FUEL EFFICIENCY 214 9.1.3.8 LONG DRAIN INTERVALS 216 9.1.3.9 LOW EMISSION 217 9.2 TWO-STROKE OILS 218 9.2.1 APPLICATION AND CHARACTERISTICS OF TWO-STROKE OILS 218 9.2.2 CLASSIFICATION OF TWO-STROKE OILS 220 9.2.2.1 API SERVICE GROUPS 220 9.2.2.2 JASO CLASSIFICATION 220 9.2.2.3 ISO CLASSIFICATION 221 9.2.3 OILS FOR TWO-STROKE OUTBOARD ENGINES 222 9.2.4 ENVIRONMENTAL^ FRIENDLY TWO-STROKE OILS 223 9.3 TRACTOR OILS 224 9.4 GAS ENGINE OILS 225 9.4.1 USE OF GAS ENGINES-GAS ASA FUEL 226 9.4.2 LUBRICANTS FOR GAS ENGINES 226 9.5 MARINE DIESEL ENGINE OILS 227 9.5.1 LOW-SPEED CROSSHEAD ENGINES 227 9.5.2 MEDIUM-SPEED ENGINES 228 9.5.3 LUBRICANTS 229 10 CEAR LUBRICATION OILS 230 THORSTEN BARTELS 10.1 INTRODUCTION 230 10.2 REQUIREMENTS OF GEAR LUBRICATION OILS 231 10.3 TRIBOLOGYOFGEARS 233 CONTENTS XV 10.3.1 FRICTION CONDITIONS OF GEAR TYPES 234 10.3.1.1 TOOTHED WHEELS 234 10.3.1.2 LOAD AND SPEED CONDITIONS DURING TOOTH ENGAGEMENT 234 10.3.1.3 STATIC AND DYNAMIC LOAD DISTRIBUTION WITHIN TOOTH ENGAGEMENT 236 10.3.1.4 LUBRICATION FILM GENERATION WITHIN TOOTH CONTACT 236 10.3.1.5 LUBRICATION CONDITIONS 238 10.3.2 SPECIFIC GEAR AND TRANSMISSION FAILURE 240 10.3.2.1 WEAR 240 10.3.2.2 SCUFENG AND SCORING 241 10.3.2.3 MICRO-PITTING 242 10.3.2.4 PITTING 244 10.3.2.5 TOOTH FRACTURE 245 10.4 GEAR LUBRICATION OILS FOR MOTOR VEHICLES 245 10.4.1 DRIVELINE LUBRICANTS FOR COMMERCIAL VEHICLES 246 10.4.2 DRIVELINE LUBRICANTS FOR PASSENGER CARS 250 10.4.3 LUBRICANTS FOR AUTOMATIC TRANSMISSIONS AND CVTS 254 10.4.3.1 FLUID REQUIREMENTS FOR HYDRODYNAMIC TRANSMISSIONS 256 10.4.3.2 FLUID REQUIREMENTS FOR WET CLUTCHES AND BRAKES 257 10.4.3.3 FLUID REQUIREMENTS FOR CVT APPLICATIONS 259 10.4.3.4 B-CVT PUSH BELT AND LINK CHAIN DRIVES 259 10.4.3.5 T-CVT TRACTION DRIVES 261 10.4.3.6 H-CVT HYDROSTATIC DYNAMIC POWERSHIFT DRIVES 262 10.5 MULTIFUNCTIONAL FLUIDS IN VEHICLE GEARS 262 10.6 GEAR LUBRICANTS FOR INDUSTRIAL GEARS 264 10.6.1 VISCOSITY-TEMPERATURE CHARACTERISTICS 266 10.6.2 FLUID SHEAR STABILITY 267 10.6.3 CORROSION AND RUST PROTECTION 267 10.6.4 OXIDATION STABILITY 268 10.6.5 FLASH POINT AND POUR POINT 268 10.6.6 DEMULSIBILITY AND WATER SEPARATION 268 10.6.7 AIR RELEASE 268 10.6.8 PAINT COMPATIBILITY 269 10.6.9 SEAL COMPATIBILITY 269 10.6.10 FOAMING 269 10.6.11 MISCIBILITY WITH MINERAL OILS 269 10.6.12 ENVIRONMENTAL AND SKIN COMPATIBILITY 269 10.6.13 OPEN GEAR DRIVES 270 10.7 COST-TO-BENEFIT RATIO OFGEAR LUBRICATION OILS 270 11 HYDRAULIC OILS 274 WOLFGANG BOCK 11.1 INTRODUCTION 274 11.2 HYDRAULIC PRINCIPLE-PASCAL'S LAW 275 11.3 HYDRAULIC SYSTEMS, CIRCUITS, COMPONENTS 276 XVI CONTENTS 11.3.1 ELEMENTS OF A HYDRAULIC SYSTEM 276 11.3.1.1 PUMPS AND MOTORS 276 11.3.1.2 HYDRAULIC CYLINDERS 277 11.3.1.3 VALVES 279 11.3.1.4 CIRCUIT COMPONENTS 279 11.3.1.5 SEALS, GASKETS AND ELASTOMERS 279 11.4 HYDRAULIC FLUIDS 281 11.4.1 COMPOSITION OF HYDRAULIC FLUIDS (BASE FLUIDS, ADDITIVES) 281 11.4.1.1 BASE OIL, BASE FLUID 281 11.4.1.2 HYDRAULIC FLUID ADDITIVES 281 11.4.2 PRIMARY, SECONDARY AND TERTIARY CHARACTERISTICS OF A HYDRAULIC FLUID 282 11.4.3 SELECTION CRITERIA FOR HYDRAULIC FLUIDS 283 11.4.4 CLASSIFICATION OF HYDRAULIC FLUIDS - STANDARDIZATION OF HYDRAULIC FLUIDS 286 11.4.4.1 CLASSIFICATION OF HYDRAULIC FLUIDS 286 11.4.5 MINERAL OIL-BASED HYDRAULIC FLUIDS 286 11.4.5.1 H HYDRAULIC OILS 287 11.4.5.2 HL HYDRAULIC OILS 288 11.4.5.3 HLP HYDRAULIC OILS 288 11.4.5.4 HVLP HYDRAULIC OILS 288 11.4.5.5 HLPD HYDRAULIC OILS 294 11.4.6 FIRE-RESISTANT HYDRAULIC FLUIDS 294 11.4.6.1 HFA FLUIDS 295 11.4.6.2 HFB FLUIDS 295 11.4.6.3 HFC FLUIDS 295 11.4.6.4 HFD FLUIDS 296 11.4.7 BIODEGRADABLE HYDRAULIC FLUIDS 296 11.4.7.1 HETG: TRIGLYCERIDE, VEGETABLE-OIL TYPES 296 11.4.7.2 HEES: SYNTHETIC ESTER TYPES 298 11.4.7.3 HEPG: POLYGLYCOL TYPES 299 11.4.7.4 HEPR: POLYALPHAOLEFIN AND RELATED HYDROCARBON PRODUCTS 299 11.4.8 FOOD-GRADE HYDRAULIC FLUIDS 299 11.4.8.1 NSF H2 LUBRICANTS 300 11.4.8.2 NSF HL LUBRICANTS 303 11.4.9 AUTOMATIC TRANSMISSION FLUIDS (ATF) 303 11.4.10 FLUIDS IN TRACTORS AND AGRICULTURAL MACHINERY 303 11.4.11 HYDRAULIC FLUIDS FOR AIRCRAFT 303 11.4.12 INTERNATIONAL REQUIREMENTS ON HYDRAULIC OILS 304 11.4.13 PHYSICAL PROPERTIES OF HYDRAULIC OILS AND THEIR EFFECT ON PERFORMANCE 306 11.4.13.1 VISCOSITY, V-T BEHAVIOR 307 11.4.13.2 VISCOSITY-PRESSURE BEHAVIOR 307 11.4.13.3 DENSITY 308 11.4.13.4 COMPRESSIBILITY 310 CONTENTS I XVII 11.4.13.5 GAS SOLUBILITY, CAVITATION 312 11.4.13.6 AIR RELEASE 314 11.4.13.7 FOAMING 314 11.4.13.8 DEMULSIFICATION 325 11.4.13.9 POUR-POINT 315 11.4.13.10 COPPER CORROSION BEHAVIOR (COPPER-STRIP TEST) 316 11.4.13.11 WATER CONTENT (KARL FISCHER METHOD) 326 11.4.13.12 AGING STABILITY (BAADER METHOD) 326 11.4.13.13 AGING STABILITY (TOST TEST) 327 11.4.13.14 NEUTRALIZATION NUMBER 327 11.4.13.15 STEEL/FERROUS CORROSION PROTECTION PROPERTIES 327 11.4.13.16 WEAR PROTECTION (SHELL FOUR-BALL APPARATUS; VKA, DIN 51 350) 327 11.4.13.17 SHEAR STABILITY OF POLYMER-CONTAINING LUBRICANTS 328 11.4.13.18 MECHANICAL TESTING OF HYDRAULIC FLUIDS IN ROTARY VANE PUMPS (DIN 51 389-2) 328 11.4.13.19 WEAR PROTECTION (FZG GEAR RIG TEST; DIN 51 354-1 AND -2) 328 11.5 HYDRAULIC SYSTEM FILTERS 329 11.5.1 CONTAMINANTS IN HYDRAULIC FLUIDS 329 11.5.2 OIL CLEANLINESS GRADES 320 11.5.3 FILTRATION 322 11.5.4 REQUIREMENTS OF HYDRAULIC FLUIDS 322 11.6 MACHINE TOOL LUBRICATION 322 11.6.1 THE ROLEOF MACHINE TOOLS 322 11.6.2 MACHINE TOOL LUBRICATION 322 11.6.3 MACHINE TOOL COMPONENTS-LUBRICANTS 323 11.6.3.1 HYDRAULIC UNIT 323 11.6.3.2 SLIDEWAYS 326 11.6.3.3 SPINDLES (MAIN AND WORKING SPINDLES) 327 11.6.3.4 GEARBOXES AND BEARINGS 327 11.6.4 MACHINE TOOL LUBRICATION PROBLEMS 328 11.6.5 HYDRAULIC FLUIDS - NEW TRENDS, NEW DEVELOPMENTS 328 11.6.5.1 APPLICATIONS 328 11.6.5.2 CHEMISTRY 328 11.6.5.3 EXTREME PRESSURE AND ANTI-WEAR PROPERTIES 330 11.6.5.4 DETERGENT/DISPERSANT PROPERTIES 330 11.6.5.5 AIR RELEASE 332 11.6.5.6 STATIC COEFFICIENT OF FRICTION 332 11.6.5.7 OXIDATION STABILITY 332 11.6.5.8 SHEAR STABILITY 332 11.6.5.9 FILTRATION OF ZN AND ASH-FREE HYDRAULIC FLUIDS 333 11.6.5.10 ELECTROSTATIC CHARGES 333 11.6.5.11 MICRO SCRATCHING 334 11.6.5.12 UPDATED STANDARDS 335 11.6.5.13 CONCLUSION 335 11.7 SUMMARY 336 XVIII \| CONTENTS 12 COMPRESSOR OILS 338 12.1 AIR COMPRESSOR OILS 338 WOLFGANG BOCK AND GEORG LINGG 12.1.1 DISPLACEMENT COMPRESSORS 340 12.1.1.1 RECIPROCATING PISTON COMPRESSORS 340 12.1.1.2 LUBRICATION OF RECIPROCATING PISTON COMPRESSORS 340 12.1.1.3 ROTARY PISTON COMPRESSORS (SINGLE SHAFT, ROTARY VANE COMPRESSORS) 341 12.1.1.4 LUBRICATION OF ROTARY PISTON COMPRESSORS 341 12.1.1.5 SCREW COMPRESSORS 342 12.1.1.6 LUBRICATION OF SCREW COMPRESSORS 342 12.1.1.7 ROOTS COMPRESSORS 343 12.1.1.8 LUBRICATION OF ROOTS COMPRESSORS 343 12.1.2 DYNAMIC COMPRESSORS 343 12.1.2.1 TURBO COMPRESSORS 343 12.1.2.2 LUBRICATION OF TURBO COMPRESSORS 344 12.1.3 PREPARATION OF COMPRESSED AIR 344 12.1.4 LUBRICATION OF GAS COMPRESSORS 344 12.1.4.1 OXYGEN COMPRESSORS 344 12.1.4.2 ACID GAS COMPRESSORS 344 12.1.4.3 INERT GAS COMPRESSORS 344 12.1.4.4 HYDROCARBON COMPRESSORS 345 12.1.4.5 VACUUM PUMP LUBRICATION 345 12.1.5 CHARACTERISTICS OF COMPRESSOR OILS 345 12.1.6 STANDARDS AND SPECIFICATIONS OF COMPRESSOR OILS 345 12.2 REFRIGERATION OILS 353 WOLFGANG BOCK 12.2.1 INTRODUCTION 353 12.2.2 MINIMUM REQUIREMENTS OF REFRIGERATION OILS 354 12.2.2.1 DIN 51 503-1: REFRIGERATION OILS, MINIMUM REQUIREMENTS (1997) 354 12.2.3 CLASSIFICATIONS OF REFRIGERATION OILS 355 12.2.3.1 MINERAL OILS (MO)-DEWAXED NAPHTHENIC REFRIGERATION OILS 355 12.2.3.2 MINERAL OILS (MO) -PARAFFMIC REFRIGERATION OILS 355 12.2.3.3 S EMI- SYNTHETIC REFRIGERATION OILS - MIXTURES OF ALKYLBENZENES AND MINERAL OILS (MO/AB) 356 12.2.3.4 FULLY SYNTHETIC REFRIGERATION OILS-ALKYLBENZENES (AB) 357 12.2.3.5 FULLY SYNTHETIC REFRIGERATION OILS-POLYALPHAOLEFINS (PAO) 357 12.2.3.6 FULLY SYNTHETIC REFRIGERATION OILS-POLYOLESTERS (POE) 357 12.2.3.7 FULLY SYNTHETIC REFRIGERATION OILS-POLYGLYCOLS (PAG) FOR R 134A 359 12.2.3.8 FULLY SYNTHETIC REFRIGERATION OILS-POLYGLYCOLS FOR NH 3 359 12.2.3.9 OTHER SYNTHETIC FLUIDS 360 12.2.3.10 REFRIGERATION OILS FOR C0 2 360 12.2.3.11 COPPER PLATING 360 12.2.4 TYPES OF COMPRESSOR 362 12.2.5 VISCOSITY SELECTION 362 12.2.5.1 GENERAL OVERVIEW 362 12.2.5.2 MIXTURE CONCENTRATION IN RELATIONSHIP TO TEMPERATURE AND PRESSURE (RENISO TRITON SE 55-R 134A) 365 12.2.5.3 MIXTURE VISCOSITY IN RELATIONSHIP TO TEMPERATURE, PRESSURE AND REFRIGERANT CONCENTRATION (RENISO TRITON SE 55-R 134A) 365 12.2.5.4 MIXTURE DENSITY IN RELATIONSHIP TO TEMPERATURE AND REFRIGERANT CONCENTRATION (RENISO TRITON SE 55-R 134A; FIG. 12.9) 365 12.2.5.5 MISCIBILITY GAP, SOLUBILITY THRESHOLD (RENISO TRITON SERIES WITH R 134A, FIG. 12.10) 365 12.2.6 SUMMARY 366 13 TURBINE OILS 367 WOLFGANG BOCK 13.1 INTRODUCTION 367 13.2 DEMANDS ON TURBINE OILS-CHARACTERISTICS 367 13.3 FORMULATION OF TURBINE OILS 368 13.4 TURBINE LUBRICANTS-SPECIFICATIONS 369 13.5 TURBINE OIL CIRCUITS 374 13.6 FLUSHING TURBINE OIL CIRCUITS 379 13.7 MONITORING AND MAINTENANCE OF TURBINE OILS 380 13.8 LIFE OF(STEAM) TURBINE OILS 380 13.9 GAS TURBINE OILS-APPLICATION AND REQUIREMENTS 381 13.10 FIRE-RESISTANT, WATER-FREE FLUIDS FOR POWER STATION APPLICATIONS 382 13.11 LUBRICANTS FOR WATER TURBINES AND HYDROELECTRIC PLANTS 383 14 METALWORKING FLUIDS 384 THEO MANG CARMEN FREILER AND DIETRICH HOERNER 14.1 ACTION MECHANISM AND CUTTING FLUID SELECTION 385 14.1.1 LUBRICATION 386 14.1.2 COOLING 387 14.1.3 SIGNIFICANCE OF CUTTING FLUID WITH VARIOUS CUTTING MATERIALS 389 14.1.3.1 HIGH-SPEED STEELS 389 14.1.3.2 CEMENTED CARBIDE METALS 390 14.1.3.3 COATED CARBIDE METALS 390 14.1.3.4 CERAMIC MATERIALS 390 14.1.3.5 CUBIC BORON NITRIDE (CBN) 390 14.1.3.6 POLYCRYSTALLINE DIAMOND (PCD) 391 14.1.3.7 COATINGS 391 14.1.4 CUTTING FLUID SELECTION FOR VARIOUS CUTTING METHODS AND CUTTING CONDITIONS 391 XX CONTENTS 14.2 FRICTION AND WEAR ASSESSMENT METHOD FOR THE USE OF CUTTING FLUIDS 393 14.2.1 TOOL LIFE AND NUMBER OF PARTS PRODUCED BY THE TOOL AS PRACTICAL ASSESSMENT PARAMETERS 394 14.2.2 MEASURING CUTTING FORCES IN SCREENING TESTS 394 14.2.3 FEED RATES AT CONSTANT FEED FORCE 395 14.2.4 MEASURING TOOL LIFE BY FAST-SCREENING METHODS 395 14.2.5 CUTTING GEOMETRY AND CHIP FLOW 396 14.2.6 OTHER FAST TESTING METHODS 397 14.2.6.1 TEMPERATURE MEASUREMENT 397 14.2.6.2 RADIOACTIVE TOOLS 397 14.2.6.3 SURFACE FINISH 397 14.3 WATER-MISCIBLE CUTTING FLUIDS 397 14.3.1 NOMENCLATURE AND BREAKDOWN 398 14.3.2 COMPOSITUM 400 14.3.2.1 EMULSIFIERS 400 14.3.2.2 VISCOSITY OF EMULSIONS 406 14.3.2.3 PHASE REVERSAL, DETERMINATION OF THE TYPE OF EMULSION 407 14.3.2.4 DEGREEOF DISPERSION 408 14.3.2.5 STABILITY 409 14.3.2.6 CORROSION INHIBITORS AND OTHER ADDITIVES 411 14.3.2.7 CUTTING FLUIDS CONTAINING EMULSIFIERS 413 14.3.2.8 COOLANTS CONTAINING POLYGLYCOLS 435 14.3.2.9 SALT SOLUTIONS 415 14.3.3 CORROSION PROTECTION AND CORROSION TEST METHODS 416 14.3.4 CONCENTRATION OFWATER-MIXED CUTTING FLUIDS 417 14.3.4.1 DETERMINATION OF CONCENTRATION BY DIN 51 368 (IP 137) 417 14.3.4.2 CONCENTRATION MEASUREMENT USING HAND-HELD REFRACTOMETERS 418 14.3.4.3 CONCENTRATION MEASUREMENT THROUGH INDIVIDUAL COMPONENTS 418 14.3.4.4 DETERMINATION OF CONCENTRATION BY TITRATION OF ANIONIC COMPONENTS 418 14.3.4.5 DETERMINATION OF CONCENTRATION THROUGH ALKALI RESERVE 419 14.3.4.6 CONCENTRATION AFTER CENTRIFUGING 419 14.3.5 STABILITY OF COOLANTS 419 14.3.5.1 DETERMINATION OFPHYSICAL EMULSION STABILITY 419 14.3.5.2 ELECTROLYTE STABILITY 420 14.3.5.3 THERMAL STABILITY 421 14.3.5.4 STABILITY TO METAL CHIPS 422 14.3.6 FOAMING PROPERTIES 422 14.3.6.1 DEFINITION AND ORIGIN OF FOAM 423 14.3.6.2 FOAM PREVENTION 424 14.3.6.3 METHODS OF DETERMINING FOAM BEHAVIOR 424 14.3.7 METALWORKING FLUID MICROBIOLOGY 425 14.3.7.1 HYGIENIC AND TOXICOLOGICAL ASPECTS OF MICROORGANISMS 427 14.3.7.2 METHODS OF DETERMINING MICROBIAL COUNT 427 CONTENTS XXI 14.3.7.3 DETERMINATION OFTHE RESISTANCE OF WATER-MISCIBLE COOLANTS TOWARDS MICROORGANISMS 428 14.3.7 .4 REDUCING OR AVOIDING MICROBIAL GROWTH IN COOLANTS 428 14.3.8 PRESERVATION OF COOLANTS WITH BIOEIDES 430 14.3.8.1 ALDEHYDES 434 14.3.8.2 FORMALDEHYDE RELEASE COMPOUNDS 434 14.3.8.3 PHENOL DERIVATIVES 434 14.3.8.4 COMPOUNDS DERIVED FROM CARBON DISULFIDE 435 14.3.8.5 ISOTHIAZOLES 435 14.3.8.6 FUNGICIDES 435 14.3.8.7 HYPOCHLORITES 435 14.3.8.8 HYDROGEN PEROXIDE, H 2 0 2 435 14.3.8.9 QUATERNARY AMMONIUM COMPOUNDS 436 14.4 NEAT CUTTING FLUIDS 436 14.4.1 CLASSIFICATION OF NEAT METALWORKING OILS ACCORDING TO SPECIFICATIONS 436 14.4.2 COMPOSITION OF NEAT METALWORKING FLUIDS 437 14.4.2.1 BASE OILS AND ADDITIVES 437 14.4.2.2 SIGNIFICANCEOFVISCOSITY ONTHE SELECTIONOFNEAT PRODUCTS 438 14.4.3 OIL MIST AND OIL EVAPORATION BEHAVIOR 439 14.4.3.1 EVAPORATION BEHAVIOR 439 14.4.3.2 LOW-MISTING OILS 440 14.4.3.3 THE CREATION OF OIL MIST 440 14.4.3.4 SEDIMENTATION AND SEPARATION OF OIL MISTS 441 14.4.3.5 TOXICITYOF OIL MIST 441 14.4.3.6 OIL MIST MEASUREMENT 443 14.4.3.7 OIL MIST INDEX 444 14.4.3.8 OIL MIST CONCENTRATION IN PRACTICE 444 14.5 MACHINING WITH GEOMETRICALLY DEFINED CUTTING EDGES 447 14.5.1 TURNING 447 14.5.2 DRILLING 447 14.5.3 MILLING 448 14.5.4 GEAR CUTTING 449 14.5.5 DEEP HOLE DRILLING 450 14.5.5.1 DEEP HOLE DRILLING METHODS 450 14.5.5.2 TASKS TO BE FULFILLED BY THE CUTTING FLUID 453 14.5.6 THREADING AND TAPPING 452 14.5.7 BROACHING 453 14.6 MACHINING WITH GEOMETRIE NON-DEFINED CUTTING EDGES 454 14.6.1 GRINDING 454 14.6.1.1 HIGH-SPEED GRINDING 455 14.6.1.2 GRINDING WHEEL ABRASIVE MATERIALS AND BONDINGS 456 14.6.1.3 REQUIREMENTS FOR GRINDING FLUIDS 456 14.6.1.4 SPECIAL WORKPIECE MATERIAL CONSIDERATIONS 457 14.6.1.5 CBN HIGH-SPEED GRINDING 457 XXII CONTENTS 14.6.1.6 HONING 458 14.6.1.7 HONING OILS 460 14.6.1.8 LAPPING 461 14.6.1.9 LAPPING POWDER AND CARRIER MEDIA 461 14.7 SPECIFIC MATERIAL REQUIREMENTS FOR MACHINING OPERATIONS 462 14.7.1 FERROUS METALS 462 14.7.1.1 STEEL 462 14.7.1.2 TOOL STEELS 462 14.7.1.3 HIGH-SPEED STEELS (HSS) 463 14.7.1.4 STAINLESS STEELS 463 14.7.1.5 CAST IRON 463 14.7.2 ALUMINUM 464 14.7.2.1 INFLUENCE OF THE TYPE OF ALUMINUM ALLOY 464 14.7.2.2 THE BEHAVIOR OF ALUMINUM DURING MACHINING 465 14.7.2.3 TOOL MATERIALS 467 14.7.3 MAGNESIUM AND ITS ALLOYS 468 14.7.4 COBALT 469 14.7.4.1 THE HEALTH AND SAFETY ASPECTS OF CARBIDES 469 14.7.4.2 USE OF CUTTING OILS IN CARBIDE MACHINING PROCESSES 470 14.7.5 TITANIUM 470 14.7.6 NICKEL AND NICKEL ALLOYS 471 14.8 METALWORKING FLUID CIRCULATION SYSTEM 472 14.8.1 METALWORKING FLUID SUPPLY 472 14.8.1.1 GRINDING 474 14.8.2 INDIVIDUALLY-FILLED MACHINES AND CENTRAL SYSTEMS 475 14.8.3 TRAMP OIL IN COOLANTS 476 14.8.4 SEPARATION OF SOLID PARTICLES 477 14.8.4.1 SWARF CONCENTRATION AND FILTER FINENESS 477 14.8.4.2 FUELL, PARTIAL OR MAIN FLOW SOLIDS SEPARATION 478 14.8.4.3 FILTRATION PROCESSES 479 14.8.4.4 SOLIDS SEPARATION EQUIPMENT 482 14.8.5 PLASTICS AND SEALING MATERIALS IN MACHINE TOOLS-COMPATIBILITY WITH CUTTING FLUIDS 487 14.8.6 MONITORING AND MAINTENANCE OF NEAT AND WATER-MISCIBLE CUTTING FLUIDS 488 14.8.6.1 STORAGEOF CUTTING FLUIDS 488 14.8.6.2 MIXING WATER-MISCIBLE CUTTING FLUIDS 489 14.8.6.3 MONITORING CUTTING FLUIDS 489 14.8.6.4 CUTTING FLUID MAINTENANCE 491 14.8.6.5 CORRECTIVE MAINTENANCE FOR NEAT AND WATER-MISCIBLE CUTTING FLUIDS 493 14.8.7 SPLITTING AND DISPOSAL 495 14.8.7.1 DISPOSAL OF CUTTING FLUIDS 495 14.8.7.2 EVALUATION CRITERIA FOR CUTTING FLUID WATER PHASES 496 14.8.7.3 ELECTROLYTE SEPARATION 497 14.8.7.4 EMULSION SEPARATION BY FLOTATION 499 CONTENTS XXIII 14.8.7.5 SPLITTING OF EMULSIONS WITH ADSORBENTS 499 14.8.7.6 SEPARATING WATER-MISCIBLE CUTTING FLUIDS BY THERMAL METHODS 500 14.8.7.7 ULTRAFILTRATION 500 14.8.7.8 EVALUATION OFDISPOSAL METHODS 502 14.9 COOLANT COSTS 503 14.9.1 COOLANT APPLICATION COSTS 503 14.9.1.1 INVESTMENT COSTS (DEPRECIATION, FINANCING COSTS, MAINTENANCE COSTS) 503 14.9.1.2 ENERGY COSTS 504 14.9.1.3 COOLANT AND COOLANT ADDITIVES 504 14.9.1.4 COOLANT MONITORING 504 14.9.1.5 OTHER AUXILIARIES 504 14.9.1.6 COOLANT SEPARATION AND DISPOSAL 504 14.9.2 COOLANT APPLICATION COSTS WITH CONSTANT SYSTEM 504 14.9.2.1 SPECIFIC COOLANT COSTS 504 14.9.2.2 OPTIMIZATION OF COOLANT USE BY COMPUTER 508 14.10 NEW TRENDS IN COOLANT TECHNOLOGY 530 14.10.1 OILLNSTEADOF EMULSION 510 14.10.1.1 FLUID FAMILIES AND MULTIFUNCTIONAL FLUIDS FOR MACHINE TOOLS 511 14.10.1.2 WASHING LINES 532 14.10.1.3 DE-OILING OF CHIPS AND MACHINED COMPONENTS 532 14.10.1.4 FUTURE PERSPECTIVES - UNIFLUID 533 14.10.2 MINIMUM QUANTITY LUBRICATION 533 14.10.2.1 CONSIDERATIONS WHEN DISPENSING WITH COOLANTS 534 14.10.2.2 MINIMUM QUANTITY LUBRICATION SYSTEMS 535 14.10.2.3 COOLANTS FOR MINIMUM QUANTITY LUBRICATION 536 14.10.2.4 OIL MIST TESTS WITH MINIMUM QUANTITY LUBRICATION 518 14.10.2.5 PRODUCT OPTIMIZATION OF A MINIMUM QUANTITY COOLANT MEDIUM FOR DRILLING 520 15 FORMING LUBRICANTS 15.1 SHEET METAL WORKING LUBRICANTS 522 THEO MANG, FRANZ KUBICKI, ACHIM LOSCH AND WOLFGANG BUSS 15.1.1 PROCESSES 523 15.1.2 BASIC TERMS IN FORMING PROCESSES 523 15.1.2.1 LATTICE STRUCTUREOF METALS 523 15.1.2.2 YIELD STRENGTH 524 15.1.2.3 STRAIN 524 15.1.2.4 FLOW CURVE 524 15.1.2.5 EFFICIENCY OF DEFORMATION, RESISTANCE TO FORMING, SURFACE PRESSURE 526 15.1.2.6 STRAIN RATE 526 15.1.2.7 ANISOTROPY, TEXTURE, R VALUE 526 15.1.3 DEEP DRAWING 527 XXIV CONTENTS 15.1.3.1 FRICTION AND LUBRICATION IN THE DIFFERENT AREAS OF A DEEP DRAWING OPERATION 527 15.1.3.2 SIGNIFICANCE OF LUBRICATION DEPENDENT UPON SHEET METAL THICKNESS, DRAWN-PART SIZE AND THE EFFICIENCY OF DEFORMATION 531 15.1.3.3 ASSESSMENT OF THE SUITABILITY OF LUBRICANTS FOR DEEP DRAWING 533 15.1.4 STRETCH DRAWING AND A COMBINATION OF STRETCH AND DEEP DRAWING 534 15.1.5 SHEAR CUTTING 535 15.1.5.1 STAMPING 536 15.1.5.2 FINEBLANKING 539 15.1.6 MATERIAL AND SURFACE MICROSTRUCTURE 541 15.1.6.1 MATERIAL 542 15.1.6.2 SURFACE MICROSTRUCTURE 542 15.1.7 TOOLS USED IN SHEET METAL FORMING OPERATIONS 543 15.1.8 LUBRICANTS FOR SHEET METAL FORMING 545 15.1.8.1 BEFORE FORMING 545 15.1.8.2 LUBRICANT BEHAVIOR DURING FORMING 548 15.1.8.3 AFTER FORMING 548 15.1.8.4 TRENDS IN SHEET METAL FORMING LUBRICANTS 549 15.1.9 CORROSION PROTECTION 550 15.1.9.1 CORROSION MECHANISMS 550 15.1.9.2 TEMPORARY CORROSION PROTECTION 551 15.1.9.3 CORROSION TESTS 553 15.1.10 REMOVALOF FORMING LUBRICANTS-INDUSTRIAL CLEANERS 553 15.1.10.1 INTERMEDIATE CLEANING IN MECHANICAL MANUFACTURE 554 15.1.10.2 CLEANING BEFORE HEAT TREATMENT AND SURFACE COATING 554 15.1.10.3 CLEANING DURING MAINTENANCE 555 15.1.10.4 CLEANING METHODS AND AGENTS 555 15.1.10.5 SYSTEMATIZATION OF CLEANERS 556 15.1.11 TESTING TRIBOLOGICAL CHARACTERISTICS 563 15.1.12 SHEET METAL FORMING IN AUTOMOBILE MANUFACTURING 565 15.1.12.1 PRELUBES 565 15.1.12.2 SKIN PASSING 567 15.1.12.3 COIL OILING 567 15.1.12.4 TRANSPORT AND STORAGE OF SHEET METAL 567 15.1.12.5 WASHINGOF STEEL STRIPS AND BLANKS 567 15.1.12.6 ADDITIONAL LUBRICATION 568 15.1.12.7 PRESSING 56S 15.1.12.8 TRANSPORT AND STORAGE OF PRESSED PARTS 570 15.1.12.9 WELDING AND BONDING 570 15.1.12.10 CLEANING AND PHOSPHATING 570 15.1.12.11 CATAPHORETIC PAINTING 571 15.1.12.12 SAVINGS POTENTIAL USING PRELUBES 571 15.1.12.13 DRY-FILM LUBRICANTS 571 CONTENTS XXV 15.2 LUBRICANTS FOR WIRE, TUBE, AND PROFILE DRAWING 573 THEO MANG AND WOLFGANG BUSS 15.2.1 FRICTION AND LUBRICATION, TOOLS, AND MACHINES 573 15.2.1.1 FORMING CLASSIFICATION 573 15.2.1.2 FRICTION AND LUBRICATION, MACHINES AND TOOLS WHEN WIRE DRAWING 574 15.2.1.3 DRAWING FORCE AND TENSION 575 15.2.1.4 DRAWING TOOL AND WEAR 577 15.2.1.5 WIRE CRACKS 579 15.2.1.6 HYDRODYNAMIC DRAWING 579 15.2.1.7 WIRE FRICTION ON CONE 579 15.2.1.8 LUBRICANT FEED IN WET DRAWING 582 15.2.1.9 DRY DRAWING 582 15.2.1.10 APPLYING LUBRICANT AS PASTES OR HIGH-VISCOSITY PRODUCTS 583 15.2.2 DRAWING COPPER WIRE 583 15.2.2.1 LUBRICANTS 584 15.2.2.2 LUBRICANT CONCENTRATION 585 15.2.2.3 SOLUBILITYOF COPPER REACTION PRODUCTS 586 15.2.2.4 WATER QUALITY AND ELECTROLYTE STABILITY 586 15.2.2.5 LABORATORY TESTING METHODS 587 15.2.2.6 LUBRICANT TEMPERATURE 588 15.2.2.7 INFLUENCE OF THE LUBRICANT ON WIRE ENAMELING 588 15.2.2.8 CIRCULATION SYSTEMS, CLEANING AND DISPOSAL OF DRAWING EMULSIONS 588 15.2.3 DRAWING OF STEEL WIRE 589 15.2.3.1 REQUIREMENTS 589 15.2.3.2 LUBRICANT CARRIER LAYERS 590 15.2.3.3 LIME AS A LUBRICANT CARRIER 590 15.2.3.4 BORAX AS LUBRICANT CARRIER 590 15.2.3.5 PHOSPHATE AS LUBRICANT CARRIER 590 15.2.3.6 OXALATE COATINGS AND SILICATES 591 15.2.3.7 LUBRICANTS FOR STEEL WIRE DRAWING 591 15.2.4 DRAWING ALUMINUM WIRE 593 15.2.4.1 DRAWING MACHINES AND LUBRICATION 593 15.2.4.2 LUBRICANTS FOR ALUMINUM WIRE DRAWING 593 15.2.5 WIRE FROM OTHER MATERIALS 594 15.2.5.1 STAINLESS STEEL 594 15.2.5.2 NICKEL 594 15.2.5.3 TUNGSTEN 595 15.2.6 PROFILE DRAWING 595 15.2.6.1 LUBRICATING TASKS IN PROFILE DRAWING 596 15.2.6.2 PRETREATMENT AND THE USE OF LUBRICANT WHEN PROFILE DRAWING STEEL 596 15.2.7 TUBE DRAWING 596 15.2.7.1 TUBE-DRAWING METHODS 597 15.2.7.2 TOOLS AND TOOL COATINGS 597 15.2.7.3 LUBRICANTS AND SURFACE PRETREATMENT FOR TUBE DRAWING 599 15.2.8 HYDROFORMING 601 XXVI CONTENTS 15.2.8.1 PROCESS PRINCIPLE 602 15.2.8.2 PROCESS CONFIGURATION 603 15.2.8.3 TRIBOLOGICAL ASPECTS OF HYDROFORMING 603 15.2.8.4 LUBRICANTS FOR HYDROFORMING 605 15.3 LUBRICANTS FOR ROLLING 606 THEO MANG AND WOLFGANG BUSS 15.3.1 GENERAL 606 15.3.1.1 ROLLING SPEED 607 15.3.1.2 RATIONALIZATION 607 15.3.1.3 SURFACE AND MATERIAL QUALITY 607 15.3.1.4 HYGIENIC COMMERCIAL REQUIREMENTS 607 15.3.2 FRICTION AND LUBRICATION WHEN ROLLING 608 15.3.3 ROLLING STEEL SHEET 611 15.3.3.1 HOT ROLLING 621 15.3.3.2 SHEET COLD ROLLING 613 15.3.3.3 FINEST SHEET COLD ROLLING 617 15.3.3.4 COLD ROLLING OF HIGH AUOY STEEL SHEET 618 15.3.4 ROLLING ALUMINUM SHEET 620 15.3.5 ALUMINUM HOT ROLLING 620 15.3.6 ALUMINUM COLD ROLLING 621 15.3.7 ROLLING OTHER MATERIALS 622 15.4 SOLID METAL FORMING LUBRICANTS (SOLID FORMING, FORGING AND EXTRUSION) 623 THEO MANG AND WOLFGANG BUSS 15.4.1 PROCESSES 623 15.4.1.1 UPSETTING 623 15.4.1.2 EXTRUSION 624 15.4.1.3 IMPRESSION DIE FORGING 624 15.4.1.4 OPEN DIE FORGING 624 15.4.2 FORMING TEMPERATURES 624 15.4.2.1 COLD 624 15.4.2.2 WARM 625 15.4.2.3 HOT 625 15.4.3 FRICTION AND LUBRICATION WITH COLD EXTRUSION AND COLD FORGING 625 15.4.3.1 FRICTION AND LUBRICANT TESTING METHODS 626 15.4.3.2 SELECTION CRITERIA FOR LUBRICANTS AND LUBRICATION TECHNOLOGY 628 15.4.3.3 LUBRICATING OILS FOR COLD EXTRUSION OF STEEL (EXTRUSION OILS) 629 15.4.3.4 PHOSPHATE COATINGS AND SOAP LUBRICANTS FOR COLD EXTRUSION OF STEEL 631 15.4.3.5 SOLID LUBRICANTS FOR COLD EXTRUSION OF STEEL 634 15.4.4 WARM EXTRUSION AND FORGING 636 15.4.4.1 TEMPERATURE RANGE UP TO 350 "C 638 15.4.4.2 TEMPERATURE RANGE 350 TO 500C 638 CONTENTS XXVII 15.4.4.3 TEMPERATURE RANGE 500 TO 600 C 638 15.4.4.4 TEMPERATURE RANGE 600 C 638 15.4.5 LUBRICATION WHEN HOT FORGING 639 15.4.5.1 DEMANDS ON HOT FORGING LUBRICANTS 640 15.4.5.2 LUBRICANT TESTING METHODS 641 15.4.6 HOT FORGING OF STEEL 641 15.4.6.1 LUBRICANTS 641 15.4.7 ALUMINUM FORGING 643 15.4.8 ISOTHERMAL AND HOT DIE FORGING 644 15.4.9 APPLICATION AND SELECTION OF LUBRICANT 645 16 LUBRICATING CREASES 648 WILFRIED DRESEL AND ROLF-PETER HECKLER 16.1 INTRODUCTION 648 16.1.1 DEFINITION 648 16.1.2 HISTORY 648 16.1.3 ADVANTAGES OVER LUBRICATING OILS 649 16.1.4 DISADVANTAGES 649 16.1.5 CLASSIFICATION 650 16.2 THICKENERS 651 16.2.1 SIMPLE SOAPS 651 16.2.1.1 SOAP ANIONS 651 16.2.1.2 SOAP CATIONS 651 16.2.1.3 LITHIUM SOAPS 652 16.2.1.4 CALCIUM SOAPS 653 16.2.1.5 SODIUM SOAPS 654 16.2.1.6 OTHER SOAPS 655 16.2.1.7 CATION MIXED SOAPS MIX/M 2 X 655 16.2.1.8 ANION MIXED SOAPS MXJ/MX 2 656 16.2.2 COMPLEX SOAPS 656 16.2.2.1 LITHIUM COMPLEX SOAPS 656 16.2.2.2 CALCIUM COMPLEX SOAPS 658 16.2.2.3 CALCIUM SULFONATE COMPLEX SOAPS 659 16.2.2.4 ALUMINUM COMPLEX SOAPS 659 16.2.2.5 OTHER COMPLEX SOAPS 660 16.2.3 OTHER IONIC ORGANIC THICKENERS 660 16.2.4 NON-IONIC ORGANIC THICKENERS 660 16.2.4.1 DIUREAS AND TETRAUREAS 663 16.2.4.2 OTHER NON-IONIC ORGANIC THICKENERS 662 16.2.5 INORGANIC THICKENERS 662 16.2.5.1 CLAYS 662 16.2.5.2 HIGHLY DISPERSED SILICIC ACID 662 16.2.6 MISCELLANEOUS THICKENERS 663 16.2.7 TEMPORARILY THICKENED FLUIDS 663 XXVIII CONTENTS 16.3 BASE OILS 664 16.3.1 MINERAL OILS 665 16.3.2 SYNTHETIC BASE OILS 665 16.3.2.1 SYNTHETIC HYDROCARBONS 665 16.3.2.2 OTHER SYNTHETIC BASE OILS 666 16.3.2.3 IMMISCIBLE BASE OIL MIXTURES 666 16.4 GREASE STRUCTURE 666 16.5 ADDITIVES 667 16.5.1 STRUCTURE MODIFIERS 668 16.5.2 ANTIRUST ADDITIVES (CORROSION INHIBITORS) 668 16.5.3 EXTREME PRESSURE AND ANTI-WEAR ADDITIVES 668 16.5.4 SOLID LUBRICANTS 669 16.5.5 FRICTION MODIFIERS 669 16.5.6 NANOMATERIALS 670 16.6 MANUFACTURE OF GREASES 670 16.6.1 METAL SOAP-BASED GREASES 670 16.6.1.1 BATCH PRODUCTION WITH PREFORMED METAL SOAPS 670 16.6.1.2 BATCH PRODUCTION WITH METAL SOAPS PREPARED IN-SITU 671 16.6.1.3 CONTINUOUS PRODUCTION 672 16.6.2 OLIGOUREA GREASES 673 16.6.3 GEL GREASES 673 16.7 GREASE RHEOLOGY 674 16.8 GREASE PERFORMANCE 674 16.8.1 TEST METHODS 677 16.8.2 ANALYTICAL METHODS 678 16.9 APPLICATIONS OF GREASES 679 16.9.1 ROLLING BEARINGS 679 16.9.1.1 RE-LUBRICATION INTERVALS 680 16.9.2 CARS, TRUCKS, CONSTRUCTION VEHICLES 683 16.9.3 STEEL MILLS 685 16.9.4 MINING 686 16.9.5 RAILROAD, RAILWAY 687 16.9.6 GEARS 687 16.9.7 FOOD-GRADE APPLICATIONS 688 16.9.8 TEXTILE MACHINES 688 16.9.9 APPLICATION TECHNIQUES 688 16.9.10 SPECIAL AND LIFETIME APPLICATIONS 689 16.9.11 APPLICATIONS WITH POLYMERIE MATERIALS 689 16.10 GREASE MARKET 690 16.11 ECOLOGY AND THE ENVIRONMENT 691 16.12 GREASE TRIBOLOGY 693 CONTENTS XXIX 17 SOLID LUBRICATION 694 CHRISTIAN BUSCH 17.1 CLASSIFICATION OF SOLID LUBRICANTS 694 17.1.1 CLASS 1: STRUCTURAL LUBRICANTS 695 17.1.2 CLASS 2: MECHANICAL LUBRICANTS 696 17.1.2.1 SELF-LUBRICATING SUBSTANCES 696 17.1.2.2 SUBSTANCES WITH LUBRICATING PROPERTIES THAT NEED A SUPPORTING MEDIUM 698 17.1.2.3 SUBSTANCES WITH INDIRECT LUBRICATING PROPERTIES BASED ON THEIR HARDNESS (PHYSICAL VAPOR DEPOSITION (PVD), CHEMICAL VAPOR DEPOSITION (CVD), AND DIAMOND-LIKE CARBON (DLC) LAYERS) 699 17.1.3 CLASS 3: SOAPS 699 17.1.4 CLASS 4: CHEMKALLY ACTIVE LUBRICANTS 699 17.2 CHARACTERISTICS 700 17.2.1 THE CRYSTAL STRUCTURES OF LAMELLAR SOLID LUBRICANTS 700 17.2.1.1 GRAPHITE 700 17.2.1.2 MOLYBDENUM DISULFIDE 700 17.2.2 HEAT STABILITY 701 17.2.3 MELTING POINT 701 17.2.4 THERMAL CONDUCTIVITY 701 17.2.5 ADSORBED FILMS 702 17.2.6 MECHANICAL PROPERTIES 702 17.2.7 CHEMICAL STABILITY 702 17.2.8 PURITY 702 17.2.9 PARTICLE SIZE 703 17.3 PRODUCTS CONTAINING SOLID LUBRICANTS 703 17.3.1 POWDERS 703 17.3.1.1 SOLID LUBRICANTS IN CARRYING MEDIA 704 17.3.2 DISPERSIONS AND SUSPENSIONS 704 17.3.3 GREASES AND GREASE PASTES 704 17.3.4 PASTES 706 17.3.5 DRY-FILM LUBRICANTS 706 17.4 INDUSTRIAL USESOF PRODUCTS CONTAINING SOLID LUBRICANTS 710 17.4.1 SCREW LUBRICATION 712 17.4.2 ROLLER-BEARING LUBRICATION 712 17.4.3 SLIDE BEARING, SLIDE GUIDEWAY, AND SLIDE SURFACE LUBRICATION 713 17.4.4 CHAIN LUBRICATION 713 17.4.5 PLASTIC AND ELASTOMER LUBRICATION 713 18 LABORATORY METHODS FOR TESTING LUBRICANTS 725 SIEGFRIED NOLL AND ROMAN MUELLER 18.1 18.2 18.3 INTRODUCTION 725 DENSITY 725 VISCOSITY 726 XXX CONTENTS 18.3.1 CAPILLARY VISCOMETERS 716 18.3.2 ROTARY VISCOMETERS 716 18.4 REFRACTIVE INDEX 717 18.5 STRUCTURAL ANALYSES 717 18.6 FLASH POINT 717 18.7 SURFACE PHENOMENA 718 18.7.1 AIR RELEASE 718 18.7.2 WATER SEPARATION AND DEMULSIBILITY 728 18.7.3 FOAMING CHARACTERISTICS 719 18.8 CLOUD POINT, POUR POINT 719 18.9 ANILINE POINT 719 18.10 WATER CONTENT 719 18.11 ASH CONTENT 720 18.12 ACIDITY, ALKALINITY 720 18.13 AGING TESTS 721 18.14 HYDROLYTIC STABILITY 721 18.15 CORROSION TESTS 722 18.16 OIL COMPATIBILITY OF SEALS AND INSULATING MATERIALS 723 18.17 EVAPORATION LOSS 723 18.18 ANALYSIS AND TESTINGOF LUBRICATING GREASES 724 18.18.1 CONSISTENCY 724 18.18.2 DROPPING POINT 724 18.18.3 OIL SEPARATION 724 18.18.4 SHEAR STABILITY OF GREASES 724 18.18.4.1 PROLONGED GREASE WORKING 724 18.18.4.2 ROLL STABILITY OF LUBRICATING GREASES 725 18.18.5 HIGH-TEMPERATURE PERFORMANCE 725 18.18.6 WHEEL BEARING LEAKAGE 725 18.18.6.1 LEAKAGE TENDENCY OF AUTOMOTIVE WHEEL BEARING GREASES 725 18.18.6.2 WHEEL-BEARING LEAKAGE UNDER ACCELERATED CONDITIONS 725 18.18.7 WHEEL-BEARING LIFE 726 18.18.8 WATER RESISTANCE 726 18.18.8.1 WATER WASHOUT CHARACTERISTICS 726 18.18.8.2 WATER SPRAY-OFF RESISTANCE 726 18.18.9 OXIDATION STABILITY OF LUBRICATING GREASES BY THE OXYGEN PRESSURE-VESSEL METHOD 726 18.18.10 CORROSION-PREVENTIVE CHARACTERISTICS 727 18.18.10.1 RUSTTEST 727 18.18.10.2 EMCORTEST 727 18.18.10.3 COPPER CORROSION 727 18.19 LIST OF EQUIVALENT STANDARDIZED METHODS FOR TESTING LUBRICANTS 728 19 MECHANICAL-DYNAMIC TEST METHODS FOR LUBRICANTS 736 THORSTEN BARTELS CONTENTS XXXI 19.1 TRIBOLOGICAL SYSTEM CATEGORIES WITHIN LUBRICANT TESTS 736 19.2 SIMPLE MECHANICAL-DYNAMIC LUBRICANT TEST MACHINES 737 19.2.1 FOUR-BALL APPARATUS 737 19.2.2 REICHERT'S FRICTION-WEAR BALANCE, BRUGGER APPARATUS 740 19.2.3 FALEX TEST MACHINES 741 19.2.3.1 FALEX BLOCK-ON-RING TEST MACHINE 741 19.2.3.2 THE FALEX PIN AND VEE BLOCK TEST MACHINE 742 19.2.3.3 FALEX HIGH-PERFORMANCE MULTISPECIMEN TEST MACHINE 743 19.2.3.4 FALEX TAPPING TORQUE TEST MACHINE 743 19.2.4 TIMKEN TEST MACHINE 744 19.2.5 HIGH-FREQUENCY RECIPROCATING TEST MACHINES 745 19.2.5.1 HIGH-FREQUENCY RECIPROCATING RIG (HFRR) 745 19.2.5.2 HIGH-FREQUENCY, LINEAR-OSCILLATION TEST MACHINE (SRV) 746 19.2.5.3 MINI TRACTION MACHINE (MTM) 747 19.2.6 LOW-VELOCITY FRICTION APPARATUS (LVFA), TRIBOMETER 748 19.2.7 DIESEL INJECTOR APPARATUS 748 19.3 PERFORMANCE TESTS FOR GEAR OIL APPLICATIONS 749 19.3.1 FZG GEAR-TEST RIG 750 19.3.1.1 FZG EP TESTS - SCUFFING 750 19.3.1.2 FZG HIGH-EP TESTS - SCUFFING LOAD CAPACITY 753 19.3.1.3 FZG PITTING TESTS 753 19.3.1.4 FZG MICRO-PITTING TESTS 754 19.3.1.5 FZG WEAR TESTS 755 19.3.1.6 FZG GEAR-EFFICIENCY TESTS 756 19.3.1.7 FZG SYNTHETIC OIL AGEING TESTS 757 19.4 PERFORMANCE TESTS FOR ROLLER BEARING APPLICATIONS 758 19.4.1 FAG ROLLER BEARING TEST APPARATUS FE8 758 19.4.2 FAG ROLLER BEARING TEST APPARATUS FE9 760 19.5 PERFORMANCE TESTS FOR SYNCHRONIZER APPLICATIONS 762 19.5.1 AREA OF APPLICATION 762 19.5.2 FUNCTION OF THE SYNCHRONIZER 762 19.5.3 STANDARDIZED TEST RIGS AND TEST METHODS 763 19.5.3.1 \|X-COMB SYNCHRONIZER TESTING MACHINE 764 19.5.3.2 FZG SSP180 SYNCHRONIZER TESTING MACHINE 766 19.6 PERFORMANCE TESTS FOR AUTOMATIC TRANSMISSIONS 768 19.6.1 AREA OF APPLICATION 768 19.6.2 FUNCTION OF FRICTION DISKS AND FLUID 768 19.6.3 STANDARDIZED TEST RIGS AND TEST METHODS 770 19.6.3.1 SAE 2 MACHINE 770 19.6.3.2 DKA MACHINE 770 19.6.3.3 ZF GK TEST BENCH 2 772 19.7 PERFORMANCE TESTS FOR CONTINUOUSLY VARIABLE TRANSMISSIONS 774 XXXII CONTENTS 197.1 FIELD OF APPLICATION 774 19.7.2 FUNCTION OF CHAIN, PUSH-BELT AND FLUID 774 19.7.3 STANDARDIZED TEST RIGS AND TEST METHODS 775 19.7.3.1 ZF UNIVERSAL VARIATOR TEST BENCH 775 19.7.3.2 VAN DOORNE TEST BENCH 777 19.8 PERFORMANCE TESTS FOR HYDRAULIC FLUID APPLICATIONS 777 19.8.1 FIELD OF APPLICATION 777 19.8.2 FUNCTION OF VANE PUMPS 778 19.8.3 STANDARDIZED VANE PUMP TEST MACHINES AND TEST METHODS 778 19.8.4 FUNCTION OF AXIAL PISTON PUMPS 779 19.8.5 STANDARDIZED AXIAL PISTON PUMP TEST MACHINES AND TEST METHODS 780 19.8.6 NONSTANDARDIZED SPECIALIZED TESTING, EFFICIENCY TESTS 782 19.8.7 HYBRID PUMP TESTING 782 19.9 OTHER STANDARDIZED AND NON-STANDARDIZED TEST METHODS AND TEST MACHINES FOR LUBRICANTS 783 19.10 INTERPRETATION AND PRECISION OF LUBRICANT TESTS 784 REFERENCES 786 SUBJECT INDEX 837
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discipline_str_mv	Maschinenbau / Maschinenwesen Chemie / Pharmazie
edition	2., completely rev. and extended ed.
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language	English
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spelling	Lubricants and lubrication ed. by Theo Mang ... 2., completely rev. and extended ed. Weinheim WILEY-VCH 2007 XLI, 850 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Lubrifiants ram Lubrication and lubricants Schmierstoff (DE-588)4077131-3 gnd rswk-swf Schmierung (DE-588)4052922-8 gnd rswk-swf Schmierstoff (DE-588)4077131-3 s Schmierung (DE-588)4052922-8 s 1\p DE-604 DE-604 Mang, Theo 1938- Sonstige (DE-588)106920987 oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2804053&prov=M&dok_var=1&dok_ext=htm Inhaltstext GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015420528&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Lubricants and lubrication Lubrifiants ram Lubrication and lubricants Schmierstoff (DE-588)4077131-3 gnd Schmierung (DE-588)4052922-8 gnd
subject_GND	(DE-588)4077131-3 (DE-588)4052922-8
title	Lubricants and lubrication
title_auth	Lubricants and lubrication
title_exact_search	Lubricants and lubrication
title_exact_search_txtP	Lubricants and lubrication
title_full	Lubricants and lubrication ed. by Theo Mang ...
title_fullStr	Lubricants and lubrication ed. by Theo Mang ...
title_full_unstemmed	Lubricants and lubrication ed. by Theo Mang ...
title_short	Lubricants and lubrication
title_sort	lubricants and lubrication
topic	Lubrifiants ram Lubrication and lubricants Schmierstoff (DE-588)4077131-3 gnd Schmierung (DE-588)4052922-8 gnd
topic_facet	Lubrifiants Lubrication and lubricants Schmierstoff Schmierung
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