Verfügbarkeit: Blast cleaning technology

Blast cleaning technology: with 169 tables

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Bibliographische Detailangaben
1. Verfasser:	Momber, Andreas 1959- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2008
Schlagworte:	Abrasives Blasting machines Dust > Removal Metals > Finishing Sand-blast Reinigungsstrahlen
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 501 - 528
Beschreibung:	XII, 540 S. Ill., graph. Darst. m
ISBN:	9783540736448

Internformat

MARC


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100	1		\|a Momber, Andreas \|d 1959- \|e Verfasser \|0 (DE-588)118092464 \|4 aut
245	1	0	\|a Blast cleaning technology \|b with 169 tables \|c A. Momber
264		1	\|a Berlin [u.a.] \|b Springer \|c 2008
300			\|a XII, 540 S. \|b Ill., graph. Darst. \|c m
336			\|b txt \|2 rdacontent
337			\|b n \|2 rdamedia
338			\|b nc \|2 rdacarrier
500			\|a Literaturverz. S. 501 - 528
650		4	\|a Abrasives
650		4	\|a Blasting machines
650		4	\|a Dust \|x Removal
650		4	\|a Metals \|x Finishing
650		4	\|a Sand-blast
650	0	7	\|a Reinigungsstrahlen \|0 (DE-588)7614148-2 \|2 gnd \|9 rswk-swf
689	0	0	\|a Reinigungsstrahlen \|0 (DE-588)7614148-2 \|D s
689	0		\|5 DE-604
776	0	8	\|i Erscheint auch als \|n Online-Ausgabe \|z 978-3-540-73645-5
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999			\|a oai:aleph.bib-bvb.de:BVB01-016676421

Datensatz im Suchindex

_version_	1804137926147178496
adam_text	A. MOMBER BLAST CLEANING TECHNOLOGY WITH 385 FIGURES AND 169 TABLES 4Y SPRINGER CONTENTS 1 INTRODUCTION 1 1.1 MOTIVATION 1 1.2 INTRODUCTORY REMARKS . 1 1.3 BLAST CLEANING METHODS AND APPLICATIONS 3 2 ABRASIVE MATERIALS 7 2.1 CLASSIFICATION AND PROPERTIES OF ABRASIVE MATERIALS 7 2.2 ABRASIVE MATERIAL STRUCTURE AND HARDNESS 7 2.2.1 STRUCTURAL ASPECTS OF ABRASIVE MATERIALS 7 2.2.2 HARDNESS OF ABRASIVE MATERIALS 13 2.3 ABRASIVE PARTICLE SHAPE PARAMETERS 17 2.3.1 BASIC SHAPE DEFINITIONS 17 2.3.2 RELATIVE PROPORTIONS OF PARTICLES 17 2.3.3 GEOMETRICAL FORMS OF PARTICLES 18 2.4 ABRASIVE PARTICLE SIZE DISTRIBUTION AND ABRASIVE PARTICLE DIAMETER... 24 2.4.1 PARTICLE SIZE DISTRIBUTION 24 2.4.1.1 GENERAL DEFINITIONS 24 2.4.1.2 SIEVE ANALYSIS 24 2.4.1.3 PARTICLE SIZE DISTRIBUTION MODELS 25 2.4.2 PARTICLE DIAMETER 27 2.4.3 ALTERNATIVE ABRASIVE PARTICLE SIZE ASSESSMENT METHODS 27 2.5 DENSITY OF ABRASIVE MATERIALS 30 2.6 NUMBER AND KINETIC ENERGY OF ABRASIVE PARTICLES 30 2.6.1 ABRASIVE PARTICLE NUMBER AND FREQUENCY 30 2.6.2 KINETIC ENERGY OF ABRASIVE PARTICLES 31 2.6.3 POWER AVAILABILITY 32 2.7 IMPURITIES 34 2.8 GLOBAL ABRASIVE EVALUATION PARAMETER 36 2.9 PROCESS BEHAVIOUR OF ABRASIVE PARTICLES 37 2.9.1 FRACTURE ZONES 37 2.9.2 FRACTURE PROBABILITY OF ABRASIVE PARTICLES 41 2.9.3 EFFECTS OF ABRASIVE MATERIAL STRUCTURE 45 2.9.4 DEBRIS SIZE 46 VI CONTENTS 2.9.5 DISINTEGRATION NUMBERS 47 2.9.6 PARTICLE SHAPE MODIFICATION DURING ABRASIVE FRAGMENTATION.. 49 2.9.7 ENERGY ABSORPTION DURING ABRASIVE FRAGMENTATION 51 2.9.8 CHEMICAL DEGRADATION 53 3 AIR AND ABRASIVE ACCELERATION 55 3.1 PROPERTIES OF COMPRESSED AIR 55 3.2 AIR FLOW IN NOZZLES 59 3.2.1 AIR MASS FLOW RATE THROUGH NOZZLES 59 3.2.2 VOLUMETRIC AIR FLOW RATE 61 3.2.3 AIR EXIT FLOW VELOCITY IN NOZZLES 66 3.2.4 AIR FLOW IN LAVAL NOZZLES 68 3.2.5 POWER, IMPULSE FLOW AND TEMPERATURE 70 3.3 ABRASIVE PARTICLE ACCELERATION IN NOZZLES 72 3.3.1 GENERAL ASPECTS 72 3.3.2 SIMPLIFIED SOLUTION 75 3.3.3 ABRASIVE FLUX RATE 75 3.3.4 ABRASIVE PARTICLE SPACING 76 3.4 JET STRUCTURE 77 3.4.1 STRUCTURE OF HIGH-SPEED AIR JETS 77 3.4.2 STRUCTURE OF AIR-PARTICLE JETS 78 3.4.3 DESIGN NOZZLE PRESSURE 80 3.5 COMPOSITION OF PARTICLE JETS 85 3.5.1 RADIAL ABRASIVE PARTICLE DISTRIBUTION 85 3.5.2 PARTICLE VELOCITY DISTRIBUTION FUNCTION 85 3.5.3 RADIAL ABRASIVE PARTICLE VELOCITY DISTRIBUTION 89 3.5.4 AREA COVERAGE 90 3.5.5 STREAM DENSITY 90 3.6 PARAMETER EFFECTS ON ABRASIVE PARTICLE VELOCITY 94 3.6.1 EFFECTS OF AIR PRESSURE ON PARTICLE VELOCITY 94 3.6.2 EFFECTS OF ABRASIVE MASS FLOW RATE ON PARTICLE VELOCITY 94 3.6.3 EFFECTS OF ABRASIVE PARTICLE SIZE ON PARTICLE VELOCITY 97 3.6.4 EFFECTS OF ABRASIVE PARTICLE SHAPE ON PARTICLE VELOCITY 100 3.6.5 EFFECTS OF ABRASIVE MATERIAL DENSITY ON PARTICLE VELOCITY 100 3.6.6 EFFECTS OF STAND-OFF DISTANCE ON PARTICLE VELOCITY 101 3.6.7 EFFECTS OF NOZZLE LENGTH AND NOZZLE DIAMETER ON PARTICLE VELOCITY 103 3.6.8 EFFECTS OF NOZZLE DESIGN ON PARTICLE VELOCITY 103 3.6.9 EFFECTS OF NOZZLE WALL ROUGHNESS ON PARTICLE VELOCITY 104 3.6.10 SCALING LAWS FOR ABRASIVE PARTICLE VELOCITY 105 3.7 ABRASIVE STREAM ENERGY FLOW AND NOZZLE EFFICIENCY 107 4 BLAST CLEANING EQUIPMENT 109 4.1 GENERAL STRUCTURE OF BLAST CLEANING SYSTEMS 109 4.2 AIR COMPRESSORS 109 CONTENTS VII 4.2.1 GENERAL ASPECTS 109 4.2.2 WORKING LINES ILL 4.2.3 POWER RATING 112 4.2.4 ECONOMIC ASPECTS 114 4.2.5 ASPECTS OF AIR QUALITY 116 4.3 BLAST MACHINE 118 4.3.1 BASIC PARTS 118 4.3.2 ABRASIVE METERING 119 4.3.2.1 EFFECTS OF PROCESS PARAMETERS 119 4.3.2.2 METERING MODELS 124 4.3.2.3 ABRASIVE MASS FLOW ADJUSTMENT 127 4.4 PRESSURE AIR HOSE LINES 128 4.4.1 MATERIALS AND TECHNICAL PARAMETERS 128 4.4.2 AIR HOSE DIAMETER SELECTION 129 4.4.3 PRESSURE DROP IN AIR HOSE LINES 130 4.4.3.1 GENERAL APPROACH 130 4.4.3.2 FRICTION NUMBERS 132 4.4.3.3 HOSE DIAMETER EFFECTS 136 4.4.3.4 PRESSURE DROP IN FITTINGS AND ARMATURES 137 4.5 ABRASIVE HOSE LINES 138 4.5.1 CONVEYING MODES IN ABRASIVE HOSES 138 4.5.2 CRITICAL CONVEYING HOW VELOCITIES IN ABRASIVE HOSES 140 4.5.3 OPTIMUM ROW VELOCITIES IN ABRASIVE HOSES 145 4.5.4 PRESSURE DROP IN ABRASIVE HOSES 147 4.6 NOZZLES 154 4.6.1 NOZZLE TYPES 154 4.6.2 NOZZLE WEAR 155 4.6.2.1 FUNDAMENTALS OF NOZZLE WEAR 155 4.6.2.2 PARAMETER EFFECTS ON NOZZLE WEAR 161 4.6.2.3 WEAR PERFORMANCE OF LAMINATED CERAMIC NOZZLES.. 164 5 SUBSTRATE AND COATING EROSION 167 5.1 INTRODUCTION 167 5.2 MECHANICAL PROPERTIES OF OXIDES AND ORGANIC COATINGS 167 5.2.1 RELEVANT MECHANICAL PROPERTIES 167 5.2.2 MECHANICAL PROPERTIES OF OXIDES 174 5.2.2.1 DEFORMATION PARAMETERS 174 5.2.2.2 HARDNESS 174 5.2.2.3 ADHESION PARAMETERS 174 5.2.3 MECHANICAL PROPERTIES OF ORGANIC COATINGS 175 5.2.3.1 DEFORMATION PARAMETERS 175 5.2.3.2 HARDNESS 177 5.2.3.3 FRACTURE MECHANICS PARAMETERS 181 I CONTENTS 5.3 IMPACT PROCESSES 182 5.3.1 IMPULSE AND ENERGY CONSIDERATIONS 182 5.3;2 COEFFICIENT OF RESTITUTION 182 5.3.3 ENERGY ABSORPTION 185 5.3.4 DAMAGE NUMBER 189 5.3.5 FRICTION EFFECTS 191 5.4 MATERIAL LOADING DUE TO SOLID PARTICLE IMPINGEMENT 192 5.4.1 LOADING PARAMETERS 192 5.4.2 MATERIAL RESPONSE TO PARTICLE IMPINGEMENT 194 5.4.3 FORMATION OF RADIAL AND LATERAL CRACKS 196 5.5 MATERIAL REMOVAL MODELS 200 5.5.1 GENERAL ASPECTS OF MODELLING 200 5.5.2 EROSION OF PLASTICALLY RESPONDING MATERIALS 201 5.5.3 EROSION OF ELASTICALLY RESPONDING MATERIALS 205 5.6 EROSION OF SCALE 206 5.6.1 BRITTLE EROSION APPROACH 206 5.6.2 REMOVAL MECHANISMS AND MODELLING 207 5.6.3 REMOVABLENESS OF MILL SCALE 209 5.7 EROSION OF BULK POLYMERS AND ELASTOMERS 210 5.7.1 MATERIAL REMOVAL MECHANISMS FOR BULK POLYMERS 210 5.7.2 MATERIAL REMOVAL MECHANISMS FOR ELASTOMERS 213 5.7.3 EROSION RESISTANCE OF BULK POLYMERS 214 5.7.4 EROSION RESISTANCE OF ELASTOMERS 217 5.8 EROSION OF ORGANIC COATINGS 221 5.8.1 MATERIAL REMOVAL MECHANISMS 221 5.8.2 EROSION RESISTANCE 223 5.8.3 EROSION DURABILITY 228 5.9 DEBONDING OF ORGANIC COATINGS 229 5.9.1 INDENTATION DEBONDING 229 5.9.2 IMPACT DEBONDING 233 5.10 COATING REMOVAL MODELS 236 5.10.1 PLOUGHING/DELAMINATION MODEL 236 5.10.2 DEBONDING MODEL 237 5.10.3 EFFECTS OF A SECOND PHASE IN THE COATING 239 SURFACE PREPARATION PROCESS 241 6.1 DEFINITION OF PROCESS AND TARGET PARAMETERS 241 6.1.1 PROCESS PARAMETERS ,. 241 6.1.2 TARGET PARAMETERS 242 6.2 EFFECTS OF PNEUMATIC PARAMETERS 243 6.2.1 EFFECTS OF AIR PRESSURE 243 6.2.2 EFFECTS OF NOZZLE DIAMETER AND NOZZLE LENGTH 249 6.2.3 EFFECTS OF NOZZLE DESIGN 251 CONTENTS IX 6.3 EFFECTS OF PERFORMANCE PARAMETERS 256 6.3.1 EFFECTS OF STAND-OFF DISTANCE 256 6.3.2 EFFECTS OF RELATIVE PARTICLE DISTANCE 259 6.3.3 EFFECTS OF IMPACT ANGLE 259 6.3.4 EFFECTS OF EXPOSURE TIME 261 6.3.5 EFFECTS OF NUMBER OF PASSES 1 263 6.4 EFFECTS OF ABRASIVE PARAMETERS 264 6.4.1 EFFECTS OF ABRASIVE MASS FLOW RATE .. . 264 6.4.2 EFFECTS OF ABRASIVE FLUX RATE 268 6.4.3 EFFECTS OF ABRASIVE PARTICLE DIAMETER 270 6.4.4 EFFECTS OF ABRASIVE PARTICLE SHAPE 277 6.4.5 EFFECTS OF ABRASIVE MATERIAL HARDNESS 279 6.5 REMOVAL MODELS 281 6.6 EFFICIENCY OF BLAST CLEANING 283 6.6.1 EROSION EFFICIENCY 283 6.6.2 GENERAL ASPECTS OF PROCESS EFFICIENCY 284 6.6.3 ASPECTS OF SITE MANAGEMENT 286 6.6.4 ASPECTS OF OPERATORS FATIGUE 287 6.7 WELD SEAM CLEANING 289 6.8 UNDERWATER APPLICATIONS 290 6.9 COST ASPECTS 292 7 HEALTH, SAFETY AND ENVIRONMENT 295 7.1 SAFETY FEATURES OF BLAST CLEANING 295 7.1.1 GENERAL SAFETY ASPECTS 295 7.1.2 RISK OF EXPLOSION 296 7.2 EMISSION OF AIR SOUND 297 7.3 EMISSION OF BODY SOUND 301 7.4 EMISSION OF DUST 302 7.5 EMISSION OF AIRBORNE METALS 310 7.5.1 AIRBORNE LEAD 310 7.5.2 OTHER AIRBORNE METALS 314 7.6 EMISSION OF MINERALS AND ORGANIC COMPOUNDS 316 7.6.1 ASBESTOS FIBRES 316 7.6.2 ORGANIC COMPOUNDS 317 7.7 VIBRATIONS TO THE OPERATOR 318 7.8 PERSONAL PROTECTIVE EQUIPMENT 320 7.9 CONFINED SPACES 321 7.10 SOIL CONTAMINATION 324 7.11 WASTE DISPOSAL 325 7.11.1 GENERAL DISPOSAL PROBLEMS 325 7.11.2 ABRASIVE MATERIAL DISPOSAL 328 7.11.3 CONTAMINATION OF ABRASIVE MATERIAL AND LEACHABLE METALS ... 331 7.11.4 PAINT WASTE 332 CONTENTS 7.12 RECYCLING OF ABRASIVE MATERIALS 333 7.12.1 CONTAMINATION WITH RESIDUE 333 7.12.2 USE FOR CONSTRUCTION MATERIALS 334 SURFACE QUALITY ASPECTS 337 8.1 SURFACE QUALITY FEATURES 337 8.2 VISUAL CLEANLINESS 338 8.2.1 VISUAL STANDARDS 338 8.2.2 INITIAL CONDITIONS ... 339 8.2.3 PREPARATION GRADES 341 8.2.4 SPECIAL REMARKS 346 8.3 DISSOLVED SUBSTANCES 349 8.3.1 DEFINITIONS AND MEASUREMENT 349 8.3.2 EFFECTS OF DISSOLVED SUBSTANCES ON COATING PERFORMANCE ....351 8.3.3 SUBSTRATE CLEANLINESS AFTER BLAST CLEANING 357 8.4 ORGANIC FILMS 362 8.4.1 DEFINITIONS AND MEASUREMENT 362 8.4.2 EFFECTS OF OIL AND GREASE ON COATING PERFORMANCE 363 8.4.3 SUBSTRATE CLEANLINESS AFTER BLAST CLEANING 366 8.5 DUST AND EMBEDDED ABRASIVE PARTICLES 367 8.5.1 DEFINITIONS AND MEASUREMENT 367 8.5.2 EFFECTS OF DUST AND PARTICLE EMBEDMENT ON COATING PERFORMANCE 370 8.5.3 SUBSTRATE CLEANLINESS AFTER BLAST CLEANING 374 8.5.4 FINE CLEANING 379 8.6 ROUGHNESS AND PROFILE OF SUBSTRATES 380 8.6.1 DEFINITIONS AND MEASUREMENT 380 8.6.2 EFFECTS OF ROUGHNESS ON COATING PERFORMANCE 384 8.6.3 PROFILE PARAMETERS OF BLAST CLEANED METAL SUBSTRATES 394 8.6.3.1 INTRODUCTION 394 8.6.3.2 EFFECTS OF BLASTING ANGLE 395 8.6.3.3 EFFECTS OF STAND-OFF DISTANCE 396 8.6.3.4 EFFECTS OF AIR PRESSURE AND ABRASIVE PARTICLE VELOCITY 397 8.6.3.5 EFFECTS OF ABRASIVE PARTICLE SIZE AND SHAPE 399 8.6.3.6 EFFECTS OF ABRASIVE MATERIAL HARDNESS 404 8.6.3.7 EFFECTS OF SPECIFIC ABRASIVE RATE 404 8.6.3.8 EFFECTS OF BLASTING TIME 405 8.6.3.9 EFFECTS OF SUBSTRATE MATERIAL 406 8.6.3.10 EFFECTS OF SURFACE PREPARATION GRADE 408 8.6.3.11 EFFECTS OF ACCESSIBILITY 408 8.6.3.12 STATISTICAL ASSESSMENT MODELS 408 8.6.4 HEIGHT DISTRIBUTION PARAMETERS 409 8.6.5 PROFILES OF OVERBLASTED STEEL SUBSTRATES 409 CONTENTS XI 8.7 SURFACE INTEGRITY 413 8.7.1 INTRODUCTION 413 8.7.2 SUBSTRATE HARDNESS 414 8.7.3 RESIDUAL STRESSES 417 8.7.4 SUBSTRATE FATIGUE STRENGTH 420 8.7.5 SUSTRATE DEFORMATION BEHAVIOUR 423 8.7.6 SUBSTRATE DEFLECTION 423 8.7.7 TRIBOLOGICAL PARAMETERS 423 8.7.8 WELD SEAM MORPHOLOGY 425 8.7.9 NEAR-SURFACE LAYER CHEMICAL COMPOSITION 425 8.7.10 CORROSION RESISTANCE 429 8.8 SURFACE ENERGY AND WORK OF ADHESION 434 8.8.1 DEFINITIONS AND MEASUREMENT 434 8.8.2 EFFECTS OF SUBSTRATE SURFACE ENERGY OH CORROSION AND COATING PERFORMANCE 437 8.8.3 SURFACE ENERGIES OF BLAST CLEANED SUBSTRATES 438 8.9 WETTABILITY OF METAL SUBSTRATES 441 8.9.1 DEFINITIONS AND MEASUREMENT 441 8.9.2 EFFECTS OF WETTABILITY ON COATING PERFORMANCE 445 8.9.3 WETTABILITY OF BLAST CLEANED METAL SUBSTRATES 447 8.10 ELECTRON TRANSPORT PROPERTIES 451 9 COATING PERFORMANCE 453 9.1 CORROSION PROTECTION PERFORMANCE OF ORGANIC COATINGS 453 9.1.1 DEFINITIONS AND METHODS 453 9.1.2 COATING PERFORMANCE AFTER BLAST CLEANING 456 9.1.2.1 INTRODUCTION 456 9.1.2.2 COATING DELAMINATION 458 9.1.2.3 DEGREE OF RUSTING 462 9.1.2.4 DEGREE OF BLISTERING 463 9.2 ADHESION AND ADHESION STRENGTH 464 9.2.1 DEFINITIONS AND MEASUREMENT 464 9.2.1.1 DEFINITIONS 464 9.2.1.2 ADHESION MEASUREMENT 465 9.2.2 ADHESION OF COATINGS AND ADHESIVES TO METAL SUBSTRATES 468 9.2.3 BLAST CLEANING PARAMETERS EFFECTS ON ADHESION 483 9.2.3.1 EFFECTS OF BLASTING ANGLE 483 9.2.3.2 EFFECTS OF ABRASIVE TYPE, SIZE AND SHAPE 483 9.2.3.3 EFFECTS OF AIR PRESSURE 488 9.2.3.4 EFFECTS OF STAND-OFF DISTANCE 488 9.2.3.5 STATISTICAL ASSESSMENT MODELS 488 9.3 MECHANICAL BEHAVIOUR OF COATINGS 489 9.4 CORROSION PROTECTION PERFORMANCE OF COATINGS 492 9.5 DEPOSITION AND TRANSPORT PHENOMENA 494 9.6 WIRE EMBEDMENT IN POLYMER MATRICES 495 XII CONTENTS 9.7 COATING FORMATION PROCESSES 496 9.7.1 SPREADING AND SPLASHING 496 9.7.2 POWDER SOLIDIFICATION 498 9.7.3 NUCLEATION PROCESSES ..-. 499 REFERENCES 501 LIST OF SYMBOLS 529 INDEX 537
adam_txt	A. MOMBER BLAST CLEANING TECHNOLOGY WITH 385 FIGURES AND 169 TABLES 4Y SPRINGER CONTENTS 1 INTRODUCTION 1 1.1 MOTIVATION 1 1.2 INTRODUCTORY REMARKS '. 1 1.3 BLAST CLEANING METHODS AND APPLICATIONS 3 2 ABRASIVE MATERIALS 7 2.1 CLASSIFICATION AND PROPERTIES OF ABRASIVE MATERIALS 7 2.2 ABRASIVE MATERIAL STRUCTURE AND HARDNESS 7 2.2.1 STRUCTURAL ASPECTS OF ABRASIVE MATERIALS 7 2.2.2 HARDNESS OF ABRASIVE MATERIALS 13 2.3 ABRASIVE PARTICLE SHAPE PARAMETERS 17 2.3.1 BASIC SHAPE DEFINITIONS 17 2.3.2 RELATIVE PROPORTIONS OF PARTICLES 17 2.3.3 GEOMETRICAL FORMS OF PARTICLES 18 2.4 ABRASIVE PARTICLE SIZE DISTRIBUTION AND ABRASIVE PARTICLE DIAMETER. 24 2.4.1 PARTICLE SIZE DISTRIBUTION 24 2.4.1.1 GENERAL DEFINITIONS 24 2.4.1.2 SIEVE ANALYSIS 24 2.4.1.3 PARTICLE SIZE DISTRIBUTION MODELS 25 2.4.2 PARTICLE DIAMETER 27 2.4.3 ALTERNATIVE ABRASIVE PARTICLE SIZE ASSESSMENT METHODS 27 2.5 DENSITY OF ABRASIVE MATERIALS 30 2.6 NUMBER AND KINETIC ENERGY OF ABRASIVE PARTICLES 30 2.6.1 ABRASIVE PARTICLE NUMBER AND FREQUENCY 30 2.6.2 KINETIC ENERGY OF ABRASIVE PARTICLES 31 2.6.3 POWER AVAILABILITY 32 2.7 IMPURITIES 34 2.8 GLOBAL ABRASIVE EVALUATION PARAMETER 36 2.9 PROCESS BEHAVIOUR OF ABRASIVE PARTICLES 37 2.9.1 FRACTURE ZONES 37 2.9.2 FRACTURE PROBABILITY OF ABRASIVE PARTICLES 41 2.9.3 EFFECTS OF ABRASIVE MATERIAL STRUCTURE 45 2.9.4 DEBRIS SIZE 46 VI CONTENTS 2.9.5 DISINTEGRATION NUMBERS 47 2.9.6 PARTICLE SHAPE MODIFICATION DURING ABRASIVE FRAGMENTATION. 49 2.9.7 ENERGY ABSORPTION DURING ABRASIVE FRAGMENTATION 51 2.9.8 CHEMICAL DEGRADATION 53 3 AIR AND ABRASIVE ACCELERATION 55 3.1 PROPERTIES OF COMPRESSED AIR 55 3.2 AIR FLOW IN NOZZLES 59 3.2.1 AIR MASS FLOW RATE THROUGH NOZZLES 59 3.2.2 VOLUMETRIC AIR FLOW RATE 61 3.2.3 AIR EXIT FLOW VELOCITY IN NOZZLES 66 3.2.4 AIR FLOW IN LAVAL NOZZLES 68 3.2.5 POWER, IMPULSE FLOW AND TEMPERATURE 70 3.3 ABRASIVE PARTICLE ACCELERATION IN NOZZLES 72 3.3.1 GENERAL ASPECTS 72 3.3.2 SIMPLIFIED SOLUTION 75 3.3.3 ABRASIVE FLUX RATE 75 3.3.4 ABRASIVE PARTICLE SPACING 76 3.4 JET STRUCTURE 77 3.4.1 STRUCTURE OF HIGH-SPEED AIR JETS 77 3.4.2 STRUCTURE OF AIR-PARTICLE JETS 78 3.4.3 DESIGN NOZZLE PRESSURE 80 3.5 COMPOSITION OF PARTICLE JETS 85 3.5.1 RADIAL ABRASIVE PARTICLE DISTRIBUTION 85 3.5.2 PARTICLE VELOCITY DISTRIBUTION FUNCTION 85 3.5.3 RADIAL ABRASIVE PARTICLE VELOCITY DISTRIBUTION 89 3.5.4 AREA COVERAGE 90 3.5.5 STREAM DENSITY 90 3.6 PARAMETER EFFECTS ON ABRASIVE PARTICLE VELOCITY 94 3.6.1 EFFECTS OF AIR PRESSURE ON PARTICLE VELOCITY 94 3.6.2 EFFECTS OF ABRASIVE MASS FLOW RATE ON PARTICLE VELOCITY 94 3.6.3 EFFECTS OF ABRASIVE PARTICLE SIZE ON PARTICLE VELOCITY 97 3.6.4 EFFECTS OF ABRASIVE PARTICLE SHAPE ON PARTICLE VELOCITY 100 3.6.5 EFFECTS OF ABRASIVE MATERIAL DENSITY ON PARTICLE VELOCITY 100 3.6.6 EFFECTS OF STAND-OFF DISTANCE ON PARTICLE VELOCITY 101 3.6.7 EFFECTS OF NOZZLE LENGTH AND NOZZLE DIAMETER ON PARTICLE VELOCITY 103 3.6.8 EFFECTS OF NOZZLE DESIGN ON PARTICLE VELOCITY 103 3.6.9 EFFECTS OF NOZZLE WALL ROUGHNESS ON PARTICLE VELOCITY 104 3.6.10 SCALING LAWS FOR ABRASIVE PARTICLE VELOCITY 105 3.7 ABRASIVE STREAM ENERGY FLOW AND NOZZLE EFFICIENCY 107 4 BLAST CLEANING EQUIPMENT 109 4.1 GENERAL STRUCTURE OF BLAST CLEANING SYSTEMS 109 4.2 AIR COMPRESSORS 109 CONTENTS VII 4.2.1 GENERAL ASPECTS 109 4.2.2 WORKING LINES ILL 4.2.3 POWER RATING 112 4.2.4 ECONOMIC ASPECTS 114 4.2.5 ASPECTS OF AIR QUALITY 116 4.3 BLAST MACHINE 118 4.3.1 BASIC PARTS 118 4.3.2 ABRASIVE METERING 119 4.3.2.1 EFFECTS OF PROCESS PARAMETERS 119 4.3.2.2 METERING MODELS 124 4.3.2.3 ABRASIVE MASS FLOW ADJUSTMENT 127 4.4 PRESSURE AIR HOSE LINES 128 4.4.1 MATERIALS AND TECHNICAL PARAMETERS 128 4.4.2 AIR HOSE DIAMETER SELECTION 129 4.4.3 PRESSURE DROP IN AIR HOSE LINES 130 4.4.3.1 GENERAL APPROACH 130 4.4.3.2 FRICTION NUMBERS 132 4.4.3.3 HOSE DIAMETER EFFECTS 136 4.4.3.4 PRESSURE DROP IN FITTINGS AND ARMATURES 137 4.5 ABRASIVE HOSE LINES 138 4.5.1 CONVEYING MODES IN ABRASIVE HOSES 138 4.5.2 CRITICAL CONVEYING HOW VELOCITIES IN ABRASIVE HOSES 140 4.5.3 OPTIMUM ROW VELOCITIES IN ABRASIVE HOSES 145 4.5.4 PRESSURE DROP IN ABRASIVE HOSES 147 4.6 NOZZLES 154 4.6.1 NOZZLE TYPES 154 4.6.2 NOZZLE WEAR 155 4.6.2.1 FUNDAMENTALS OF NOZZLE WEAR 155 4.6.2.2 PARAMETER EFFECTS ON NOZZLE WEAR 161 4.6.2.3 WEAR PERFORMANCE OF LAMINATED CERAMIC NOZZLES. 164 5 SUBSTRATE AND COATING EROSION 167 5.1 INTRODUCTION 167 5.2 MECHANICAL PROPERTIES OF OXIDES AND ORGANIC COATINGS 167 5.2.1 RELEVANT MECHANICAL PROPERTIES 167 5.2.2 MECHANICAL PROPERTIES OF OXIDES 174 5.2.2.1 DEFORMATION PARAMETERS 174 5.2.2.2 HARDNESS 174 5.2.2.3 ADHESION PARAMETERS 174 5.2.3 MECHANICAL PROPERTIES OF ORGANIC COATINGS 175 5.2.3.1 DEFORMATION PARAMETERS 175 5.2.3.2 HARDNESS 177 5.2.3.3 FRACTURE MECHANICS PARAMETERS 181 I CONTENTS 5.3 IMPACT PROCESSES 182 5.3.1 IMPULSE AND ENERGY CONSIDERATIONS 182 5.3;2 COEFFICIENT OF RESTITUTION 182 5.3.3 ENERGY ABSORPTION 185 5.3.4 DAMAGE NUMBER 189 5.3.5 FRICTION EFFECTS 191 5.4 MATERIAL LOADING DUE TO SOLID PARTICLE IMPINGEMENT 192 5.4.1 LOADING PARAMETERS 192 5.4.2 MATERIAL RESPONSE TO PARTICLE IMPINGEMENT 194 5.4.3 FORMATION OF RADIAL AND LATERAL CRACKS 196 5.5 MATERIAL REMOVAL MODELS 200 5.5.1 GENERAL ASPECTS OF MODELLING 200 5.5.2 EROSION OF PLASTICALLY RESPONDING MATERIALS 201 5.5.3 EROSION OF ELASTICALLY RESPONDING MATERIALS 205 5.6 EROSION OF SCALE 206 5.6.1 BRITTLE EROSION APPROACH 206 5.6.2 REMOVAL MECHANISMS AND MODELLING 207 5.6.3 REMOVABLENESS OF MILL SCALE 209 5.7 EROSION OF BULK POLYMERS AND ELASTOMERS 210 5.7.1 MATERIAL REMOVAL MECHANISMS FOR BULK POLYMERS 210 5.7.2 MATERIAL REMOVAL MECHANISMS FOR ELASTOMERS 213 5.7.3 EROSION RESISTANCE OF BULK POLYMERS 214 5.7.4 EROSION RESISTANCE OF ELASTOMERS 217 5.8 EROSION OF ORGANIC COATINGS 221 5.8.1 MATERIAL REMOVAL MECHANISMS 221 5.8.2 EROSION RESISTANCE 223 5.8.3 EROSION DURABILITY 228 5.9 DEBONDING OF ORGANIC COATINGS 229 5.9.1 INDENTATION DEBONDING 229 5.9.2 IMPACT DEBONDING 233 5.10 COATING REMOVAL MODELS 236 5.10.1 PLOUGHING/DELAMINATION MODEL 236 5.10.2 DEBONDING MODEL 237 5.10.3 EFFECTS OF A SECOND PHASE IN THE COATING 239 SURFACE PREPARATION PROCESS 241 6.1 DEFINITION OF PROCESS AND TARGET PARAMETERS 241 6.1.1 PROCESS PARAMETERS ,. 241 6.1.2 TARGET PARAMETERS 242 6.2 EFFECTS OF PNEUMATIC PARAMETERS 243 6.2.1 EFFECTS OF AIR PRESSURE 243 6.2.2 EFFECTS OF NOZZLE DIAMETER AND NOZZLE LENGTH 249 6.2.3 EFFECTS OF NOZZLE DESIGN 251 CONTENTS IX 6.3 EFFECTS OF PERFORMANCE PARAMETERS 256 6.3.1 EFFECTS OF STAND-OFF DISTANCE 256 6.3.2 EFFECTS OF RELATIVE PARTICLE DISTANCE 259 6.3.3 EFFECTS OF IMPACT ANGLE 259 6.3.4 EFFECTS OF EXPOSURE TIME 261 6.3.5 EFFECTS OF NUMBER OF PASSES 1 263 6.4 EFFECTS OF ABRASIVE PARAMETERS 264 6.4.1 EFFECTS OF ABRASIVE MASS FLOW RATE .'. 264 6.4.2 EFFECTS OF ABRASIVE FLUX RATE 268 6.4.3 EFFECTS OF ABRASIVE PARTICLE DIAMETER 270 6.4.4 EFFECTS OF ABRASIVE PARTICLE SHAPE 277 6.4.5 EFFECTS OF ABRASIVE MATERIAL HARDNESS 279 6.5 REMOVAL MODELS 281 6.6 EFFICIENCY OF BLAST CLEANING 283 6.6.1 EROSION EFFICIENCY 283 6.6.2 GENERAL ASPECTS OF PROCESS EFFICIENCY 284 6.6.3 ASPECTS OF SITE MANAGEMENT 286 6.6.4 ASPECTS OF OPERATORS' FATIGUE 287 6.7 WELD SEAM CLEANING 289 6.8 UNDERWATER APPLICATIONS 290 6.9 COST ASPECTS 292 7 HEALTH, SAFETY AND ENVIRONMENT 295 7.1 SAFETY FEATURES OF BLAST CLEANING 295 7.1.1 GENERAL SAFETY ASPECTS 295 7.1.2 RISK OF EXPLOSION 296 7.2 EMISSION OF AIR SOUND 297 7.3 EMISSION OF BODY SOUND 301 7.4 EMISSION OF DUST 302 7.5 EMISSION OF AIRBORNE METALS 310 7.5.1 AIRBORNE LEAD 310 7.5.2 OTHER AIRBORNE METALS 314 7.6 EMISSION OF MINERALS AND ORGANIC COMPOUNDS 316 7.6.1 ASBESTOS FIBRES 316 7.6.2 ORGANIC COMPOUNDS 317 7.7 VIBRATIONS TO THE OPERATOR 318 7.8 PERSONAL PROTECTIVE EQUIPMENT 320 7.9 CONFINED SPACES 321 7.10 SOIL CONTAMINATION 324 7.11 WASTE DISPOSAL 325 7.11.1 GENERAL DISPOSAL PROBLEMS 325 7.11.2 ABRASIVE MATERIAL DISPOSAL 328 7.11.3 CONTAMINATION OF ABRASIVE MATERIAL AND LEACHABLE METALS . 331 7.11.4 PAINT WASTE 332 CONTENTS 7.12 RECYCLING OF ABRASIVE MATERIALS 333 7.12.1 CONTAMINATION WITH RESIDUE 333 7.12.2 USE FOR CONSTRUCTION MATERIALS 334 SURFACE QUALITY ASPECTS 337 8.1 SURFACE QUALITY FEATURES 337 8.2 VISUAL CLEANLINESS 338 8.2.1 VISUAL STANDARDS 338 8.2.2 INITIAL CONDITIONS .' 339 8.2.3 PREPARATION GRADES 341 8.2.4 SPECIAL REMARKS 346 8.3 DISSOLVED SUBSTANCES 349 8.3.1 DEFINITIONS AND MEASUREMENT 349 8.3.2 EFFECTS OF DISSOLVED SUBSTANCES ON COATING PERFORMANCE .351 8.3.3 SUBSTRATE CLEANLINESS AFTER BLAST CLEANING 357 8.4 ORGANIC FILMS 362 8.4.1 DEFINITIONS AND MEASUREMENT 362 8.4.2 EFFECTS OF OIL AND GREASE ON COATING PERFORMANCE 363 8.4.3 SUBSTRATE CLEANLINESS AFTER BLAST CLEANING 366 8.5 DUST AND EMBEDDED ABRASIVE PARTICLES 367 8.5.1 DEFINITIONS AND MEASUREMENT 367 8.5.2 EFFECTS OF DUST AND PARTICLE EMBEDMENT ON COATING PERFORMANCE 370 8.5.3 SUBSTRATE CLEANLINESS AFTER BLAST CLEANING 374 8.5.4 FINE CLEANING 379 8.6 ROUGHNESS AND PROFILE OF SUBSTRATES 380 8.6.1 DEFINITIONS AND MEASUREMENT 380 8.6.2 EFFECTS OF ROUGHNESS ON COATING PERFORMANCE 384 8.6.3 PROFILE PARAMETERS OF BLAST CLEANED METAL SUBSTRATES 394 8.6.3.1 INTRODUCTION 394 8.6.3.2 EFFECTS OF BLASTING ANGLE 395 8.6.3.3 EFFECTS OF STAND-OFF DISTANCE 396 8.6.3.4 EFFECTS OF AIR PRESSURE AND ABRASIVE PARTICLE VELOCITY 397 8.6.3.5 EFFECTS OF ABRASIVE PARTICLE SIZE AND SHAPE 399 8.6.3.6 EFFECTS OF ABRASIVE MATERIAL HARDNESS 404 8.6.3.7 EFFECTS OF SPECIFIC ABRASIVE RATE 404 8.6.3.8 EFFECTS OF BLASTING TIME 405 8.6.3.9 EFFECTS OF SUBSTRATE MATERIAL 406 8.6.3.10 EFFECTS OF SURFACE PREPARATION GRADE 408 8.6.3.11 EFFECTS OF ACCESSIBILITY 408 8.6.3.12 STATISTICAL ASSESSMENT MODELS 408 8.6.4 HEIGHT DISTRIBUTION PARAMETERS 409 8.6.5 PROFILES OF "OVERBLASTED" STEEL SUBSTRATES 409 CONTENTS XI 8.7 SURFACE INTEGRITY 413 8.7.1 INTRODUCTION 413 8.7.2 SUBSTRATE HARDNESS 414 8.7.3 RESIDUAL STRESSES 417 8.7.4 SUBSTRATE FATIGUE STRENGTH 420 8.7.5 SUSTRATE DEFORMATION BEHAVIOUR 423 8.7.6 SUBSTRATE DEFLECTION 423 8.7.7 TRIBOLOGICAL PARAMETERS 423 8.7.8 WELD SEAM MORPHOLOGY 425 8.7.9 NEAR-SURFACE LAYER CHEMICAL COMPOSITION 425 8.7.10 CORROSION RESISTANCE 429 8.8 SURFACE ENERGY AND WORK OF ADHESION 434 8.8.1 DEFINITIONS AND MEASUREMENT 434 8.8.2 EFFECTS OF SUBSTRATE SURFACE ENERGY OH CORROSION AND COATING PERFORMANCE 437 8.8.3 SURFACE ENERGIES OF BLAST CLEANED SUBSTRATES 438 8.9 WETTABILITY OF METAL SUBSTRATES 441 8.9.1 DEFINITIONS AND MEASUREMENT 441 8.9.2 EFFECTS OF WETTABILITY ON COATING PERFORMANCE 445 8.9.3 WETTABILITY OF BLAST CLEANED METAL SUBSTRATES 447 8.10 ELECTRON TRANSPORT PROPERTIES 451 9 COATING PERFORMANCE 453 9.1 CORROSION PROTECTION PERFORMANCE OF ORGANIC COATINGS 453 9.1.1 DEFINITIONS AND METHODS 453 9.1.2 COATING PERFORMANCE AFTER BLAST CLEANING 456 9.1.2.1 INTRODUCTION 456 9.1.2.2 COATING DELAMINATION 458 9.1.2.3 DEGREE OF RUSTING 462 9.1.2.4 DEGREE OF BLISTERING 463 9.2 ADHESION AND ADHESION STRENGTH 464 9.2.1 DEFINITIONS AND MEASUREMENT 464 9.2.1.1 DEFINITIONS 464 9.2.1.2 ADHESION MEASUREMENT 465 9.2.2 ADHESION OF COATINGS AND ADHESIVES TO METAL SUBSTRATES 468 9.2.3 BLAST CLEANING PARAMETERS EFFECTS ON ADHESION 483 9.2.3.1 EFFECTS OF BLASTING ANGLE 483 9.2.3.2 EFFECTS OF ABRASIVE TYPE, SIZE AND SHAPE 483 9.2.3.3 EFFECTS OF AIR PRESSURE 488 9.2.3.4 EFFECTS OF STAND-OFF DISTANCE 488 9.2.3.5 STATISTICAL ASSESSMENT MODELS 488 9.3 MECHANICAL BEHAVIOUR OF COATINGS 489 9.4 CORROSION PROTECTION PERFORMANCE OF COATINGS 492 9.5 DEPOSITION AND TRANSPORT PHENOMENA 494 9.6 WIRE EMBEDMENT IN POLYMER MATRICES 495 XII CONTENTS 9.7 COATING FORMATION PROCESSES 496 9.7.1 SPREADING AND SPLASHING 496 9.7.2 POWDER SOLIDIFICATION 498 9.7.3 NUCLEATION PROCESSES .-. 499 REFERENCES 501 LIST OF SYMBOLS 529 INDEX 537
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author	Momber, Andreas 1959-
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discipline	Maschinenbau / Maschinenwesen Werkstoffwissenschaften / Fertigungstechnik
discipline_str_mv	Maschinenbau / Maschinenwesen Werkstoffwissenschaften / Fertigungstechnik
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spelling	Momber, Andreas 1959- Verfasser (DE-588)118092464 aut Blast cleaning technology with 169 tables A. Momber Berlin [u.a.] Springer 2008 XII, 540 S. Ill., graph. Darst. m txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. 501 - 528 Abrasives Blasting machines Dust Removal Metals Finishing Sand-blast Reinigungsstrahlen (DE-588)7614148-2 gnd rswk-swf Reinigungsstrahlen (DE-588)7614148-2 s DE-604 Erscheint auch als Online-Ausgabe 978-3-540-73645-5 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016676421&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Momber, Andreas 1959- Blast cleaning technology with 169 tables Abrasives Blasting machines Dust Removal Metals Finishing Sand-blast Reinigungsstrahlen (DE-588)7614148-2 gnd
subject_GND	(DE-588)7614148-2
title	Blast cleaning technology with 169 tables
title_auth	Blast cleaning technology with 169 tables
title_exact_search	Blast cleaning technology with 169 tables
title_exact_search_txtP	Blast cleaning technology with 169 tables
title_full	Blast cleaning technology with 169 tables A. Momber
title_fullStr	Blast cleaning technology with 169 tables A. Momber
title_full_unstemmed	Blast cleaning technology with 169 tables A. Momber
title_short	Blast cleaning technology
title_sort	blast cleaning technology with 169 tables
title_sub	with 169 tables
topic	Abrasives Blasting machines Dust Removal Metals Finishing Sand-blast Reinigungsstrahlen (DE-588)7614148-2 gnd
topic_facet	Abrasives Blasting machines Dust Removal Metals Finishing Sand-blast Reinigungsstrahlen
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016676421&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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