Superalloys II: High-Temperature Materials for Aerospace and Industrial Power
This is the first truly comprehensive review of the latest developments in the pursuit of superalloys since the publication, 15 years ago, of Superalloys, which quickly became the standard work in the field. The editors of this volume define superalloys as those alloys based on Group VIIIA-base elements developed for elevated temperature service (some of which operate at nearly 90% of their absolute melting temperature), which also demonstrate combined mechanical strength and surface stability. Topics covered include gas turbine design and superalloys, cobalt-base alloys, nickel-iron alloys, prediction of phase composition, high-temperature oxidation, wrought alloys, powder metallurgy, joining, alternative materials, and the future of superalloys. Contains appendixes of phase diagrams, superalloy data, and registered trademarks.
1130204562
Superalloys II: High-Temperature Materials for Aerospace and Industrial Power
This is the first truly comprehensive review of the latest developments in the pursuit of superalloys since the publication, 15 years ago, of Superalloys, which quickly became the standard work in the field. The editors of this volume define superalloys as those alloys based on Group VIIIA-base elements developed for elevated temperature service (some of which operate at nearly 90% of their absolute melting temperature), which also demonstrate combined mechanical strength and surface stability. Topics covered include gas turbine design and superalloys, cobalt-base alloys, nickel-iron alloys, prediction of phase composition, high-temperature oxidation, wrought alloys, powder metallurgy, joining, alternative materials, and the future of superalloys. Contains appendixes of phase diagrams, superalloy data, and registered trademarks.
323.95 In Stock
Superalloys II: High-Temperature Materials for Aerospace and Industrial Power

Superalloys II: High-Temperature Materials for Aerospace and Industrial Power

Superalloys II: High-Temperature Materials for Aerospace and Industrial Power

Superalloys II: High-Temperature Materials for Aerospace and Industrial Power

Overview

This is the first truly comprehensive review of the latest developments in the pursuit of superalloys since the publication, 15 years ago, of Superalloys, which quickly became the standard work in the field. The editors of this volume define superalloys as those alloys based on Group VIIIA-base elements developed for elevated temperature service (some of which operate at nearly 90% of their absolute melting temperature), which also demonstrate combined mechanical strength and surface stability. Topics covered include gas turbine design and superalloys, cobalt-base alloys, nickel-iron alloys, prediction of phase composition, high-temperature oxidation, wrought alloys, powder metallurgy, joining, alternative materials, and the future of superalloys. Contains appendixes of phase diagrams, superalloy data, and registered trademarks.

Product Details

ISBN-13: 9780471011477
Publisher: Wiley
Publication date: 09/07/1987
Series: Science and Technology of Materials Series
Edition description: REV
Pages: 640
Product dimensions: 5.91(w) x 9.37(h) x 1.38(d)

About the Author

Chester T. Sims is the editor of Superalloys II: High-Temperature Materials for Aerospace and Industrial Power, published by Wiley.

Norman S. Stoloff is the editor of Superalloys II: High-Temperature Materials for Aerospace and Industrial Power, published by Wiley.

William C. Hagel is the editor of Superalloys II: High-Temperature Materials for Aerospace and Industrial Power, published by Wiley.

Table of Contents

Superalloys: Genesis and Character (C. Sims).

Gas Turbine Design and Superalloys (H. Miller and L. Chambers).

Fundamentals of Strengthening (N. Stoloff).

Nickel-base Alloys (E. Ross and C. Sims).

Cobalt-base Alloys (A. Beltran).

Nickel-iron Alloys (E. Brown and D. Muzyka).

Directionally Solidified Superalloys (D. Duhl).

Prediction of Phase Composition (C. Sims).

Mechanical Behavior (S. Floreen).

Fatigue (R. Miner).

High-temperature Oxidation (J. Smialek and G. Meier).

Hot Corrosion (F. Pettit and C. Giggins).

Protective Coatings (J. Wood and E. Goldman).

Melting and Refining (L. Lherbier).

Investment Casting (W. Freeman, Jr.).

Wrought Alloys (W. Couts, Jr.

and T. Howson).

Powder Metallurgy (S. Reichman and D. Chang).

Joining (W. Yeniscavich).

Alternative Materials (N. Stoloff and C. Sims).

Future of Superalloys (G. Hoppin III and W. Danesi).

Appendixes.
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