Numerous commercial processes operate at temperatures exceeding 500 degrees Celsius. The materials used in high-temperature structures have design constraints which are in addition to those on materials used at, or near to, room temperature. These important additional constraints include time-dependent inelastic strain (creep), thermal stability of the microstructure and high-temperature corrosion. The addition of these constraints to those of low cost, strength, toughness, machinability, formability, weldability, and combinations of these, has led to the intensive development, over the past 50 years, of an extensive group of metallic materials: generally referred to as "high-temperature alloys".

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eBook:

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ToC:

Table of contents

Authors:

César A. C. Sequeira

DOI:

https://doi.org/10.4028/www.scientific.net/RC.42

THEMA:

TGM

BISAC:

TEC021000

Keywords:

Ceramic, Chromium, Coating, Corrosion, Deposit, Electrochemical Potential Noise, Electrochemistry, Galvanic Corrosion, Heavy Metal Compounds, High Temperature Corrosion, Hot Corrosion, Molten Salt, Molten Salt Corrosion, Ni Alloys, Nickel Ni, Nitride, Stainless Steel (SS), Thin Film Hot Corrosion, Vanadium Pentoxide, Waste Incineration

Pages:

364

Year:

2003

ISBN-13 (softcover):

9780878499175

ISBN-13 (CD):

9783038599197

ISBN-13 (eBook):

9783035706031

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