Corrosion Resistance of Steels, Nickel Alloys, and Zinc in Aqueous Media: Waste Water, Seawater, Drinking Water, High-Purity Water

Corrosion Resistance of Steels, Nickel Alloys, and Zinc in Aqueous Media: Waste Water, Seawater, Drinking Water, High-Purity Water

By: Roman Bender (author), Marcel Roche (author), Michael Schutze (author)Hardback

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Description

This handbook is derived from the online reference "Corrosion Handbook", bringing together the relevant information about corrosion protection and prevention for steels, one of the most widely used materials. It provides comprehensive information, including tabulated data and references, on the corrosion properties of the following materials: Unalloyed steels and cast steel, unalloyed cast iron, high-alloy cast iron, high-silicon cast iron, structural steels with up to 12% chromium, ferritic chromium steels with more than 12% chromium, ferritic-austenitic steels with more than 12% chromium, high-alloy multiphase steels, ferritic/perlitic-martensitic steels, ferritic-austenitic steels/duplex steels, austenitic chromium-nickel steels, austenitic chromium-nickel-molybdenum steels, austenitic chromium-nickel steels with special alloying additions, special iron-based alloys, and zinc. The following corrosive media are considered: Seawater, brackish water, industrial waste water, municipal waste water, drinking water, high-purity water.

About Author

Michael Schutze, born in 1952, studied materials sciences at the University of Erlangen-Nurnberg from 1972 to 1978, then joined the Karl Winnacker Institute of the DECHEMA as a research associate. He received his doctorate in engineering sciences from the RWTH (Technical University) in Aachen in 1983, completed his habilitation in 1991, becoming a member of the external teaching staff of the RWTH. Since 1998, he holds a professorship there. He was appointed director of the Karl Winnacker Institute in 1996 and Chairman of the executive board of DECHEMA Forschungsinstitut in 2012. He is recipient of the Friedrich-Wilhelm-Prize, the Rahmel-Schwenk medal, the Otto-von-Guericke Prize, the Cavallaro medal, the U.R. Evans Award, the Khwarizmi Award and the UNIDO Award, past Chairman of the Gordon Conference on Corrosion, editor of the journal Materials and Corrosion, Past-President of the European Federation of Corrosion, Past-President of the World Corrosion Organization and Chairman of the Working Party Corrosion by Hot Gases and Combustion Products of the European Federation of Corrosion. Marcel Roche, born in 1945, received his diplomas in Chemical Engineering from the Institut National des Sciences Appliquees of Lyon in 1967 and in Refining and Chemical Engineering from the Ecole Nationale Superieure du Petrole et des Moteurs in 1968. He worked as a corrosion engineer for the Institut Francais de Petrole and Technip Engineering from 1970 to 1979, when he moved to the Corrosion Department of Elf Aquitaine. He spent the remainder of his career in the field of Corrosion, Inspection and Materials in this Group which became TotalFinaElf and finally Total. He retired in June 2008 and became a corrosion consultant. Since July 2011, he is President of CEFRACOR, the French Corrosion Society, and of its department Conseil Francais de la Protection Cathodique. He is a member of the Scientific and Technical Advisory Committee of the European Federation of Corrosion and a member of its Board of Administrators, representing France. He has been active in several European and international standardisation working groups, including CEN TC219 WG3 for cathodic protection in marine applications for which he has been Convenor from 2009 to 2014. Roman Bender, born in 1971, studied chemistry at the Justus Liebig University of Giessen from 1992 to 1997. After he received his diploma he joined the Karl Winnacker Institute of the DECHEMA in Frankfurt (Main) as a research associate. Since 2000 he is head of the group materials and corrosion at the DECHEMA and editor in chief of the world's largest corrosion data collection, the DECHEMA Werkstofftabelle, and the Corrosion Handbook. In 2001 he received his doctorate in natural sciences from the Technical University of Aachen (RWTH Aachen). In 2008 Dr. Bender was appointed chief executive officer of the GfKORR - The Society for Corrosion Protection. As well, in 2013 he has been appointed as the Scientific Secretary of the European Federation of Corrosion.

Contents

Preface IX How to use the Handbook XI Warranty disclaimer 1 High Purity Water 3 Introduction 3 Physical and chemical properties 4 Unalloyed and low alloyed steels/Cast steel 6 Non-alloyed cast iron 21 High-alloyed cast iron 22 Ferritic chromium steels with < 13% Cr 22 Ferritic chromium steels with 13% Cr 24 High-alloyed multiphase steels 26 Austenitic CrNi steels 27 Austenitic CrNiMo(N)steels 52 Nickel 56 Nickel-chromium alloys 56 Nickel-chromium-iron alloys (without Mo) 56 Nickel-chromium-molybdenum alloys 67 Nickel-copper alloys 67 Nickel-molybdenum alloys 68 Zinc 68 Bibliography 69 Drinking Water 81 Introduction 82 Unalloyed steels and cast steel 87 Unalloyed cast iron 102 Structural steels with up to 12% chromium 104 Ferritic chromium steels with more than 12% chromium 104 Ferritic-austenitic steels with more than 12% chromium 104 Austenitic chromium-nickel steels 104 Austenitic chromium-nickel-molybdenum steels 104 Austenitic chromium-nickel steels with special alloying additions 104 Zinc 112 Bibliography 147 Seawater 155 Introduction 155 Unalloyed and low-alloyed steels/cast steel 193 Unalloyed cast iron and low-alloy cast iron 224 High-alloy cast iron 226 Ferritic chromium steels with < 13% Cr 228 Ferritic chromium steels with 13% Cr 229 High-alloy multiphase steels 235 Ferritic/pearlitic-martensitic steels 235 Ferritic-austenitic steels/duplex steels 235 Austenitic CrNi steels 237 Austenitic CrNiMo(N) steels 239 Austenitic CrNiMoCu(N) steels 244 Nickel 260 Nickel-chromium alloys 262 Nickel-chromium-iron alloys (without Mo) 262 Nickel-chromium-molybdenum alloys 262 Nickel-copper alloys 263 Nickel-molybdenum alloys 270 Other nickel alloys 270 Zinc 270 Bibliography 273 Waste Water (Municipal) 289 Introduction 290 Unalloyed steels and cast steel 292 Unalloyed cast iron 294 Ferritic chromium steels with more than 12% chromium 299 Ferritic austenitic steels with more than 12% chromium 299 Austenitic CrNi steels 299 Austenitic CrNiMo(N) steels 299 Austenitic CrNiMoCu(N)-steels 299 Zinc 305 Bibliography 307 Waste Water (Industrial) 311 Introduction 311 Unalloyed steels and low-alloy steels/cast steel 312 Unalloyed cast iron and low-alloy cast iron 316 High-alloy cast iron 316 Silicon cast iron 316 Ferritic chromium steels with < 13 % Cr 320 Ferritic chromium steels with 13 % Cr 320 High-alloy multiphase steels 320 Ferritic/pearlitic-martensitic steels 320 Ferritic-austenitic steels/duplex steels 320 Austenitic CrNi steels 323 Austenitic CrNiMo(N) steels 323 Austenitic CrNiMoCu(N) steels 323 Nickel-chromium alloys 339 Nickel-chromium-iron alloys (without Mo) 339 Nickel-chromium-molybdenum alloys 339 Nickel-copper alloys 339 Zinc 343 Bibliography 344 Key to materials compositions 351 Index of materials 391 Subject index 401

Product Details

  • ISBN13: 9783527340699
  • Format: Hardback
  • Number Of Pages: 418
  • ID: 9783527340699
  • weight: 950
  • ISBN10: 3527340696

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