Verfügbarkeit: Green corrosion chemistry and engineering

Green corrosion chemistry and engineering: opportunities and challenges

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Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2012
Schlagworte:	Grüne Chemie Korrosion Korrosionsinhibitor
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXVII, 401 S. Ill., graph. Darst.
ISBN:	9783527329304 9783527641789

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Datensatz im Suchindex

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adam_text	IMAGE 1 IX CONTENTS FOREWORD VII PREFACE XIX ACKNOWLEDGMENTS XX7 ABOUT THE EDITOR XXIII LIST OF CONTRIBUTORS XXV 1 BASICS OF CORROSION CHEMISTRY 1 NORIO SATO 1.1 INTRODUCTION 1 1.2 METALLIC CORROSION 1 1.2.1 BASIC PROCESSES 1 1.2.2 POTENTIAL-PH DIAGRAM 2 1.2.3 CORROSION POTENTIAL 3 1.2.4 ANODIC METAL DISSOLUTION 4 1.2.5 CATHODIC OXIDANT REDUCTION 6 1.3 METALLIC PASSIVITY 7 1.3.1 PASSIVITY OF METALS 7 1.3.2 PASSIVATION OF METALS 9 1.3.3 PASSIVE FILMS 11 1.3.4 CHLORIDE-BREAKDOWN OF PASSIVE FILMS 12 1.4 LOCALIZED CORROSION 13 1.4.1 PITTING CORROSION 33 1.4.2 CREVICE CORROSION 16 1.4.3 POTENTIAL-DIMENSION DIAGRAM 18 1.5 CORROSION RUST I9 1.5.1 RUST IN CORROSION 39 1.5.2 ION-SELECTIVE RUST 20 1.5.3 ELECTRON-SELECTIVE RUST 22 1.5.4 REDOX RUST 24 1.6 ATMOSPHERIC CORROSION 24 1.6.1 ATMOSPHERIC CORROSION CHEMISTRY 24 1.6.2 WEATHERING STEEL CORROSION 26 1.6.3 ANTICORROSION RUST 28 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1012093883 DIGITALISIERT DURCH IMAGE 2 X CONTENTS 1.7 CONCLUDING REMARKS 29 REFERENCES 29 2 CORROSION AND ELECTROCHEMISTRY 33 VEDULA SANKAR SASTRI 2.1 INTRODUCTION 33 2.2 THERMODYNAMICS AND THE STABILITY OF METALS 40 2.3 FREE ENERGY AND ELECTRODE POTENTIAL 41 2.4 ELECTRODE POTENTIAL MEASUREMENTS 44 2.5 EQUILIBRIUM ELECTRODE POTENTIALS 45 2.6 USE OF POURBAIX DIAGRAMS 49 2.7 DYNAMIC ELECTROCHEMICAL PROCESSES 49 2.8 CONCENTRATION POLARIZATION 61 REFERENCES 69 FURTHER READING 69 3 APPLICATION OF MICROELECTROCHEMICAL TECHNIQUES IN CORROSION RESEARCH 71 Y. FRANK CHENG 3.1 INTRODUCTION 71 3.2 SCANNING VIBRATING ELECTRODE TECHNIQUE 72 3.2.1 THE TECHNIQUE AND PRINCIPLE 72 3.2.2 LOCAL DISSOLUTION BEHAVIOR OF THE WELDING ZONE OF PIPELINE STEEL 73 3.2.3 EFFECTS OF MILL SCALE AND CORROSION PRODUCT DEPOSIT ON CORROSION OF THE STEEL 79 3.3 LOCALIZED ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY 81 3.3.1 THE TECHNIQUE AND PRINCIPLE 81 3.3.2 CORROSION OF STEEL AT THE BASE OF THE COATING DEFECT 82 3.3.3 MICROSCOPIC METALLURGICAL ELECTROCHEMISTRY OF PIPELINE STEELS 86 3.3.4 CHARACTERIZATION OF LOCAL ELECTROCHEMICAL ACTIVITY OF A PRECRACKED STEEL SPECIMEN 88 3.4 SCANNING KELVIN PROBE 89 3.4.1 THE TECHNIQUE AND PRINCIPLE 89 3.4.2 MONITORING THE COATING DISBONDMENT 91 3.5 CONCLUSIVE REMARKS 94 ACKNOWLEDGMENTS 95 REFERENCES 95 4 PROTECTIVE COATINGS: AN OVERVIEW 97 ANAND SAWROOP KHANNA 4.1 INTRODUCTION 97 4.2 SELECTION OF PAINT COATINGS 97 4.3 CLASSIFICATION OF VARIOUS COATINGS 98 IMAGE 3 CONTENTS XI 4.4 CHEMISTRY OF RESINS 99 4.4.1 ALKYD RESINS 99 4.4.2 MODIFIED ALKYDS 301 4.4.3 EPOXIES 101 4.4.4 URETHANES 105 4.4.5 ISOCYANATES 106 4.4.6 ALIPHATIC ISOCYANATES 306 4.4.7 POLYOLS 107 4.4.8 ACRYLIC URETHANES 307 4.4.9 MOISTURE-CURED POLYURETHANES 707 4.4.10 ZINC-BASED COATINGS 108 4.5 HIGH-PERFORMANCE COATINGS 109 4.5.1 THE 100% SOLVENTLESS EPOXIES 330 4.5.2 CONCEPT OF UNDERWATER COATINGS 333 4.5.3 POLYVINYLIDENEDIFLURIDE COATINGS 333 4.5.4 POLYSILOXANE COATINGS 334 4.5.5 FIRE-RESISTANT COATINGS 119 4.5.6 ORGANIC-INORGANIC HYBRID (OIH) WATERBORNE COATINGS 339 4.6 SURFACE PREPARATION 121 4.7 PAINT APPLICATION 323 4.8 IMPORTANCE OF SUPERVISION, INSPECTION, AND QUALITY CONTROL DURING PAINT COATINGS 122 4.9 TRAINING AND CERTIFICATION COURSES 123 4.10 SUMMARY 123 REFERENCES 123 5 NEW ERA OF ECO-FRIENDLY CORROSION INHIBITORS 125 NIKETAN PATEL AND GIRISH MEHTA 5.1 INTRODUCTION 325 5.2 ANODIC (PASSIVATING OR FILM-FORMING) INHIBITORS 326 5.2.1 MECHANISM 127 5.2.1.1 GENERALIZED FILM THEORY 327 5.2.1.2 ADSORPTION THEORY 327 5.3 CATHODIC (ADSORPTION-TYPE) INHIBITORS 129 5.3.1 MECHANISM 129 5.4 MIXED INHIBITORS 130 5.5 PRECIPITATION INHIBITORS 131 5.6 VAPOR PHASE INHIBITORS 131 5.7 TOXICITY OF INHIBITORS 139 5.7.1 IRRITANTS 140 5.7.2 ASPHYXIANTS 343 5.7.3 ANESTHETICS AND NARCOTICS 343 5.7.4 SYSTEMIC POISONS 141 5.7.5 SENSITIZERS 142 5.7.6 CARCINOGENS 142 IMAGE 4 XII CONTENTS 5.7.7 5.7.8 MUTAGENS TERATOGENS REFERENCES 142 142 148 6 GREEN CORROSION INHIBITORS: STATUS IN DEVELOPING COUNTRIES 157 SANJAY K. SHARMA AND ALKA SHARMA 6.1 INTRODUCTION 157 6.2 PROTECTION AGAINST CORROSION 160 6.3 INHIBITORS 162 6.3.1 MECHANISM OF INHIBITION Z62 6.3.2 CHOICE OF INHIBITORS 163 6.4 NATURAL PRODUCTS AS GREEN CORROSION INHIBITORS 366 6.5 GREEN CORROSION INHIBITION: RESEARCH AND PROGRESS 169 6.5.1 THE PROPOSED MECHANISM FOR THE INHIBITORY BEHAVIOR OF THE EXTRACTS 170 6.6 GREEN CORROSION INHIBITION IN DEVELOPING COUNTRIES 173 6.6.1 USAGE OF METALS AND PRESENT CORROSION MANAGEMENT: PRACTICE AND PREVENTION 173 6.6.2 SUMMARY OF RESEARCHERS' WORK TO DEVELOP GREEN INHIBITION SCIENCE 174 ACKNOWLEDGMEN TS 176 REFERENCES 176 7 INNOVATIVE SILANES-BASED PRETREATMENT TO IMPROVE THE ADHESION OF ORGANIC COATINGS 181 MICHELE FEDEL, FLAVIO DEFLORIAN, AND STEFANO ROSSI 7.1 INTRODUCTION 181 7.2 HYBRID SILANE SOL-GEL COATINGS 182 7.2.1 BASIC CHEMISTRY OF THE SILICON ALKOXIDES AND ORGANOFUNCTIONAL SILICON ALKOXIDES 183 7.2.2 DIP COATING 192 7.2.3 INTERACTION BETWEEN SILICON ALKOXIDES AND METALLIC SUBSTRATES 194 7.2.4 INTERACTION BETWEEN SILICON ALKOXIDES AND AN ORGANIC POLYMERIC MATERIAL 199 7.3 CORROSION PROTECTION BY SOL-GEL COATINGS 202 7.3.1 CORROSION PROTECTION PROPERTIES OF ORGANOFUNCTIONAL SOL-GEL COATINGS 202 7.3.2 EXPERIMENTAL METHODS OF INVESTIGATION OF THE PROPERTIES OF THE SILICON ALKOXIDE SOL-GEL COATINGS AS COUPLING AGENTS 203 7.3.3 PRACTICAL EXAMPLES OF CORROSION PROTECTION BY SILICON-BASED SOL-GEL COATINGS 204 REFERENCES 207 IMAGE 5 CONTENTS XIII 8 CORROSION OF AUSTENITIC STAINLESS STEELS AND NICKEL-BASE ALLOYS IN SUPERCRITICAL WATER AND NOVEL CONTROL METHODS 211 LIZHEN TAN, TODD R. ALLEN, AND YING YANG 8.1 INTRODUCTION 211 8.1.1 SUPERCRITICAL WATER AND ITS APPLICATIONS 211 8.1.2 AUSTENITIC STAINLESS STEELS AND NI-BASE ALLOYS AND THEIR GENERAL CORROSION BEHAVIOR 214 8.1.2.1 AUSTENITIC STAINLESS STEELS AND NI-BASE ALLOYS 214 8.1.2.2 GENERAL CORROSION BEHAVIOR 215 8.2 THERMODYNAMICS OF ALLOY OXIDATION 216 8.3 CORROSION OF AUSTENITIC STAINLESS STEELS AND NI-BASE ALLOYS IN SCW 220 8.3.1 WEIGHT CHANGE 221 8.3.2 SURFACE MORPHOLOGY 223 8.3.3 OXIDE LAYER STRUCTURE 225 8.4 NOVEL CORROSION CONTROL METHODS 227 8.4.1 MICROSTRUCTURAL OPTIMIZATION 227 8.4.2 GRAIN SIZE REFINEMENT 231 8.4.3 PERFORMANCE COMPARISON OF THE CORROSION CONTROL METHODS 233 8.5 FACTORS INFLUENCING CORROSION 234 8.5.1 TEST CONDITIONS 234 8.5.2 EFFECT OF THERMODYNAMICS AND KINETICS 235 8.5.3 EFFECT OF MICROSTRUCTURE 236 8.5.4 EFFECT OF GRAIN SIZE 237 8.6 SUMMARY 239 REFERENCES 240 9 METAL-PHOSPHONATE ANTICORROSION COATINGS 243 KONSTANTINOS D. DEMADIS, MARIA PAPADAKI, AND DIMITRIOS VAROUCHAS 9.1 INTRODUCTION 243 9.2 THE SCOPE OF GREEN CHEMISTRY AND CORROSION CONTROL 245 9.3 METAL-PHOSPHONATE MATERIALS: STRUCTURAL CHEMISTRY 247 9.3.1 PHOSPHONOBUTANE-L,2,4-TRICARBOXYLICACID(PBTC) 247 9.3.2 ETHYLENEDIAMINE-TETRAKIS(METHYLENEPHOSPHONIC ACID) (EDTMP) 249 9.3.3 DIMETHYLAMINOMETHYLENE-BISLPHOSPHONICACID) (DMABP) 249 9.3.4 MAGNESIUM (OR ZINC)-(AMINO-TRIS-(METHYLENEPHOSPHONATE)), MG(OR ZN)-AMP 251 9.3.5 CALCIUM-(AMINO-TRIS-(METHYLENEPHOSPHONATE)), CA-AMP 252 9.3.6 STRONTIUM-(AMINO-TRIS-(METHYLENEPHOSPHONATE)), SR-AMP 253 9.3.7 BARIUM-(AMINO-TRIS-(METHYLENEPHOSPHONATE)), BA-AMP 255 9.3.8 ZINC-HEXAMETHYLENE-DIARNINE-TETRAKIS(METHYLENEPHOSPHONATE), ZN-HDTMP 255 9.3.9 STRONTIUM OR BARIUM-HEXAMETHYLENE-DIAMINE- TETRAKIS(METHYLENEPHOSPHONATE), SR OR BA-HDTMP 257 IMAGE 6 XIV CONTENTS 9.3.10 ZINC-TETRAMETHYLENE-DIAMINE-TETRAKIS(METHYLENEPHOSPHONATE), ZN-TDTMP 259 9.3.11 STRONTIUM AND CALCIUM-ETHYLENE-DIAMINE-TETRAKIS(METHYLENE PHOSPHONATE), SR-EDTMP AND CA-EDTMP 259 9.3.12 BARIUM-PHOSPHONOMETHYLENE-IMINO-DIACETATE, BA-PMIDA 260 9.3.13 TETRASODIUM-HYDROXYETHYL-AMINO-BIS(METHYLENEPHOSPHONATE), NA4-HEABMP 260 9.3.14 CALCIUM-PHOSPHONOBUTANE-L^^-TRICARBOXYLATE, CA-PBTC 263 9.3.15 CALCIUM-HEXAMETHYLENE-DIAMINE-TETRAKISFMETHYLENEPHOSPHONATE), CA-HDTMP 264 9.3.16 CALCIUM-HYDROXYPHOSPHONOACETATE, CA-HPAA 264 9.3.17 STRONTIUM AND BARIUM-HYDROXYPHOSPHONOACETATE, SR AND BA-HPAA 267 9.3.17.1 SR[(HPAA)(H 2 O) 3 ]-H 2 O 267 9.3.17.2 M(HPAA)(H 2 O) 2 (M = SR, BA) 268 9.3.18 CALCIUM-PHOSPHONOMETHYLENE-IMINO-DIACETATE, CA-PMIDA 269 9.4 METAL-PHOSPHONATE ANTICORROSION COATINGS 269 9.5 A LOOK AT CORROSION INHIBITION BY METAL-PHOSPHONATES AT THE MOLECULAR LEVEL 276 9.5.1 ANTICORROSION COATINGS BY THE MATERIAL {ZN(AMP)-3H 2 O)* 276 9.5.2 ANTICORROSION COATINGS BY THE MATERIAL {ZN(HDTMP)-H 2 O}* 278 9.5.3 ANTICORROSION COATINGS BY THE MATERIAL {CA(PBTC)(H 2 O) 2 -2H 2 O}* 278 9.5.4 ANTICORROSION COATINGS BY THE MATERIAL CA 3 (HPAA) 2 (H 2 O)I 4 279 9.5.5 ANTICORROSION COATINGS BY THE MATERIALS {M(HPAA)(H 2 O) 2 } N (M = SR, BA) 281 9.5.6 ANTICORROSION COATINGS BY THE MATERIALS {M(PMIDA)} N (M = CA, SR, BA) 282 9.5.7 A COMPARATIVE LOOK AT THE INHIBITORY PERFORMANCE BY METAL-PHOSPHONATE PROTECTIVE FILMS 285 9.6 CONCLUSIONS/PERSPECTIVES 287 REFERENCES 287 10 METAL-MATRIX NANOCOMPOSITE COATINGS PRODUCED BY ELECTRODEPOSITION 297 CATERINA ZANELLA, STEFANO ROSSI, AND FLAVIO DEFLORIAN 10.1 INTRODUCTION 297 10.2 ELECTRODEPOSITION OF COMPOSITE COATINGS-THEORETICAL REMARKS 298 10.2.1 SUSPENSION OF SOLID PARTICLES IN ELECTROLYTES 298 10.2.2 MECHANISM OF CODEPOSITION 299 10.2.3 PROCESS PARAMETERS INFLUENCING THE INCORPORATION 302 10.3 ELECTRODEPOSITION OF COMPOSITE COATINGS 305 10.4 NEW INSIGHT IN THE ELECTRODEPOSITION OF COMPOSITE COATINGS 313 IMAGE 7 CONTENTS XV 10.4.1 ULTRASONIC VIBRATIONS 313 10.4.2 MAGNETIC FIELD 314 REFERENCES 315 11 ADSORPTION STUDIES, MODELING, AND USE OF GREEN INHIBITORS IN CORROSION INHIBITION: AN OVERVIEW OF RECENT RESEARCH 319 SANJAY K. SHARMA, ACKMEZ MUDHOO, AND ESSAM KHAMIS 11.1 INTRODUCTION 319 11.2 ADSORPTION MECHANISMS IN CORROSION INHIBITION 321 11.3 HYBRID COATINGS 323 11.4 MODELING ASPECTS 326 11.5 GREEN INHIBITORS 328 11.5.1 NATURAL DERIVATIVES AS GREEN INHIBITORS 328 11.5.2 RESEARCH ORIENTATIONS 329 11.5.2.1 ORGANIC-BASED GREEN INHIBITORS 329 11.5.2.2 AMINO ACIDS-BASED GREEN INHIBITORS 330 11.5.2.3 PLANT EXTRACTS-BASED GREEN INHIBITORS 330 11.5.2.4 RARE EARTH ELEMENTS-BASED GREEN INHIBITORS 333 11.6 CONCLUSIONS 334 ACKNOWLEDGMENTS 335 REFERENCES 335 12 INDIAN INITIATIVES FOR CORROSION PROTECTION 339 ANAND SAWROOP KHANNA 12.1 INTRODUCTION 339 12.2 SCENARIO OF THE INDIAN INDUSTRY 342 12.3 CORROSION PROTECTION SCENARIO IN INDIA 343 12.4 CORROSION EDUCATION 345 12 A.I WHY CORROSION EDUCATION IS THE NEED OF THE HOUR? 345 12.4.2 PIONEERS OF CORROSION EDUCATION IN INDIA 346 12.4.3 CORROSION SCIENCE AND ENGINEERING, IIT BOMBAY 346 12.4.4 THE CENTRAL ELECTROCHEMICAL RESEARCH INSTITUTE (CECRI) 347 12.4.5 NACE INDIA SECTION 347 12.4.6 THE SOCIETY FOR SURFACE PROTECTIVE COATINGS INDIA 347 12.4.7 THE NATIONAL CORROSION COUNCIL OF INDIA (NCCI) 348 12.5 AN OVERVIEW OF HIGHLY CORROSION-PRONE INDUSTRIES IN INDIA 348 12.5.1 OIL AND GAS INDUSTRY 348 12.5.2 PROCESS CHEMICAL AND PETROCHEMICAL INDUSTRY 349 12.5.3 PULP AND PAPER INDUSTRY 350 12.5.4 POWER PLANTS 353 12.6 CONCLUSIONS 352 12.7 RECOMMENDATIONS 352 12.7.1 FOR GOVERNMENT OR RELEVANT MINISTRY RESPONSIBLE FOR CONTROLLING INDUSTRIAL DISCIPLINE 352 12.7.2 FOR ACADEMIC INSTITUTES AND RESEARCH ORGANIZATIONS 353 IMAGE 8 XVI CONTENTS 12.7.3 ROLES AND RESPONSIBILITIES OF THE INDUSTRY 353 REFERENCES 353 FURTHER READING 354 13 PROTECTIVE COATINGS: NOVEL NANOHYBRID COATINGS FOR CORROSION AND FOULING PREVENTION 355 S. ANANDAKUMAR AND R. SAVITHA 13.1 INTRODUCTION 355 13.2 BACKGROUND 356 13.3 FOULING 356 13.4 MARINE FOULING 357 13.4.1 STAGES OF MARINE FOULING 357 13.4.2 CONSEQUENCES OF MARINE FOULING 357 13.4.3 METHODS USED FOR FOULING PREVENTION 357 13.4.3.1 ANTIFOULING PAINTS 358 13.5 CORROSION 359 13.5.1 CONSEQUENCES OF CORROSION 359 13.5.2 METHODS USED FOR THE PREVENTION OF CORROSION 359 13.5.3 CHARACTERISTICS OF A GOOD COATING 359 13.5.4 EVALUATION OF CORROSION RESISTANCE OF COATINGS 360 13.5.5 ELECTROCHEMICAL IMPEDANCE STUDIES (EISS) 360 13.6 EPOXY RESIN COATINGS 360 13.6.1 ADVANTAGES OF EPOXY RESIN 361 13.6.2 DISADVANTAGES OF EPOXY RESIN 363 13.6.3 JUSTIFICATION 362 13.6.4 NEED FOR NANOTECHNOLOGY 362 13.6.5 POLYMER NANOMATERIALS 363 13.6.6 DIFFERENT TYPES OF NANOPARTICLES 363 13.6.7 POLYHEDRAL OLIGOMERIC SILSESQUIOXANES (POSSS) 364 13.6.8 NEED FOR NANOCONTAINER (NANOZEOLITE) 364 13.6.9 SELF-REPAIRING MULTIFUNCTIONAL COATINGS 366 13.6.9.1 FABRICATION OF NANOCONTAINERS 366 13.6.9.2 BIOCIDE RELEASE MECHANISM FROM NANOCONTAINER 366 13.6.9.3 SELECTION OF NATURAL PRODUCTS AS BIOCIDES 367 13.7 SCOPE AND OBJECTIVES 368 13.8 EXPERIMENTAL: SYNTHESIS AND STRUCTURAL CHARACTERIZATION OF THE NANOHYBRID COATINGS 368 13.8.1 MATERIALS 368 13.8.2 SURFACE PREPARATION OF THE MILD STEEL SPECIMENS 369 13.8.3 SYNTHESIS OF PHOSPHORUS-CONTAINING POLYURETHANE EPOXY RESIN 369 13.8.4 SYNTHESIS OF AMINE-FUNCTIONALIZED POSS (POSS-NH2) 369 13.8.5 PREPARATION OF BIOCIDES 370 13.8.6 LOADING OF BIOCIDES 370 13.8.7 PREPARATION OF TRIS(P-ISOCYANATOPHENYL)-THIOPHOSPHATE-MODIFIED EPOXY NANOCOATINGS 371 IMAGE 9 CONTENTS XVII 13.8.8 TEST METHODS 371 13.9 RESULTS AND DISCUSSION 373 13.9.1 STRUCTURAL CHARACTERIZATION OF TRIS(P-ISOCYANATOPHENYL)-THIOPHOSPHATE-MODIFIED EPOXY RESIN 373 13.9.2 STRUCTURAL CHARACTERIZATION OF MCM-41 375 13.9.3 COMPOSITION OF NATURAL PRODUCTS 378 13.9.3.1 M. CHAMPACA 378 13.9.3.2 NEEMOIL 379 13.9.4 CONFIRMATION OF LOADING OF BIOCIDE 379 13.9.5 EVALUATION OF CORROSION RESISTANCE BY EIS 381 13.9.6 COLORIMETRIC AND GRAVIMETRIC ANALYSES 383 13.9.6.1 PH ANALYSIS 385 13.9.6.2 SALT SPRAY TEST RESULTS 386 13.9.6.3 SEAWATER IMMERSION TEST 386 13.9.6.4 ANTIFOULING STUDIES BY SCANNING ELECTRON MICROSCOPY (SEM) 389 13.10 SUMMARY AND CONCLUSION 389 ACKNOWLEDGMENT 390 REFERENCES 391 FURTHER READING 392 INDEX 393
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id	DE-604.BV039734559
illustrated	Illustrated
indexdate	2024-07-21T00:17:25Z
institution	BVB
isbn	9783527329304 9783527641789
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-024582368
oclc_num	751739804
open_access_boolean
owner	DE-703 DE-29T DE-92 DE-83
owner_facet	DE-703 DE-29T DE-92 DE-83
physical	XXVII, 401 S. Ill., graph. Darst.
publishDate	2012
publishDateSearch	2012
publishDateSort	2012
publisher	Wiley-VCH
record_format	marc
spelling	Green corrosion chemistry and engineering opportunities and challenges ed. by Sanjay K. Sharma Weinheim Wiley-VCH 2012 XXVII, 401 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Grüne Chemie (DE-588)7563215-9 gnd rswk-swf Korrosion (DE-588)4032518-0 gnd rswk-swf Korrosionsinhibitor (DE-588)4165354-3 gnd rswk-swf Korrosion (DE-588)4032518-0 s Korrosionsinhibitor (DE-588)4165354-3 s Grüne Chemie (DE-588)7563215-9 s DE-604 Sharma, Sanjay Kumar Sonstige (DE-588)142374717 oth Erscheint auch als Online-Ausgabe, EPUB 978-3-527-64179-6 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-64181-9 Erscheint auch als Online-Ausgabe, PDF 978-3-527-64180-2 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3830297&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024582368&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Green corrosion chemistry and engineering opportunities and challenges Grüne Chemie (DE-588)7563215-9 gnd Korrosion (DE-588)4032518-0 gnd Korrosionsinhibitor (DE-588)4165354-3 gnd
subject_GND	(DE-588)7563215-9 (DE-588)4032518-0 (DE-588)4165354-3
title	Green corrosion chemistry and engineering opportunities and challenges
title_auth	Green corrosion chemistry and engineering opportunities and challenges
title_exact_search	Green corrosion chemistry and engineering opportunities and challenges
title_full	Green corrosion chemistry and engineering opportunities and challenges ed. by Sanjay K. Sharma
title_fullStr	Green corrosion chemistry and engineering opportunities and challenges ed. by Sanjay K. Sharma
title_full_unstemmed	Green corrosion chemistry and engineering opportunities and challenges ed. by Sanjay K. Sharma
title_short	Green corrosion chemistry and engineering
title_sort	green corrosion chemistry and engineering opportunities and challenges
title_sub	opportunities and challenges
topic	Grüne Chemie (DE-588)7563215-9 gnd Korrosion (DE-588)4032518-0 gnd Korrosionsinhibitor (DE-588)4165354-3 gnd
topic_facet	Grüne Chemie Korrosion Korrosionsinhibitor
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