• 书名：Long Term Microstructure Stability of Typical Wrought Superalloy

• ISBN：978-7-5240-0477-6

• 出版社：冶金工业出版社有限公司

• 定价：88

• 作者：江河，董建新

• 出版时间：2026-02-02

内容简介

This book firstly summaries the characteristics ofmajor phasesfound in wrought superalloys, andthen givesa briefview of morphology evolution insome typical wrought superalloysduring long term aging.More than ten wrought superalloys are selectedand conducts more than 10000 h aging at designed service temperature or even higher to investigate the microstructure stability and related mechanical properties evolution.

The content is accessible to both refined and common readers.It can serveresearchers in industry involved in the design and application of superalloys. It mayalso be of interest to academia, where students and researchers may find it useful as a reference and summary of microstructure stability of superalloys.

编辑推荐

本书以镍基高温合金为主要研究对象，收集了常见的十余种合金，开展了长期时效实验，多种合金多个温度的服役时长可达1万小时，素材极为宝贵。作者按照合金组织特征进行分类、梳理，有较高的出版价值和学术价值。

目录

Chapter 1 Phase characteristics of superalloy

1.1 What is superalloy

1.2 Microstructure characterization

1.3 Typical phases in superalloy

1.4 Gamma matrix

1.5 Geometrically close-packed (GCP) phases

1.5.1 γ′ phase

1.5.2 γ″ phase

1.5.3 δ phase

1.5.4 η phase

1.6 Carbide

1.6.1 MC carbide

1.6.2 M23C6 carbide

1.6.3 M6C carbide

1.6.4 M7C3 carbide

1.7 Borides

1.8 Topologically close-packed (TCP) phases

1.8.1 σ phase

1.8.2 μ phase

1.8.3 G phase

1.8.4 P phase

1.8.5 Laves phase

1.9 Microstructure stability

References

Chapter 2 GH4169 alloy

2.1 Characteristics of GH4169 alloy

2.2 Evolution of δ phase during aging

2.2.1 600 ℃ aging

2.2.2 650 ℃ aging

2.2.3 680 ℃ aging

2.2.4 704 ℃ aging

2.2.5 720 ℃ aging

2.2.6 760 ℃ aging

2.3 Evolution of γ″+γ′ phase during aging

2.3.1 600 ℃ aging

2.3.2 650 ℃ aging

2.3.3 680 ℃ aging

2.3.4 704 ℃ aging

2.3.5 720 ℃ aging

2.4 Evolution of hardness

Chapter 3 GH4169D alloy

3.1 Characteristics of GH4169D alloy

3.2 Evolution of δ phase during aging

3.2.1 600 ℃ aging

3.2.2 650 ℃ aging

3.2.3 704 ℃ aging

3.2.4 720 ℃ aging

3.3 Evolution of γ′ phase during aging

3.3.1 600 ℃ aging

3.3.2 650 ℃ aging

3.3.3 704 ℃ aging

3.3.4 720 ℃ aging

3.4 Evolution of hardness

Chapter 4 GH4738 alloy

4.1 Characteristics of GH4738 alloy

4.2 Evolution of γ′ phase during aging

4.2.1 650 ℃ aging

4.2.2 730 ℃ aging

4.2.3 760 ℃ aging

4.2.4 800 ℃ aging

4.2.5 850 ℃ aging

4.3 Evolution of hardness and impact toughness

4.3.1 Hardness

4.3.2 Impact toughness

Chapter 5 740 alloy

5.1 Characteristics of 740 alloy

5.2 Evolution of γ′ phase during aging

5.2.1 704 ℃ aging

5.2.2 725 ℃ aging

5.2.3 760 ℃ aging

5.3 Evolution of grain boundary during aging

5.3.1 704 ℃ aging

5.3.2 725 ℃ aging

5.3.3 760 ℃ aging

5.4 Evolution of η phase

5.5 Evolution of hardness

Chapter 6 740H alloy

6.1 Characteristics of 740H alloy

6.2 Evolution of γ′ phase during aging

6.2.1 600 ℃ aging

6.2.2 650 ℃ aging

6.2.3 704 ℃ aging

6.2.4 720 ℃ aging

6.2.5 800 ℃ aging

6.2.6 850 ℃ aging

6.3 Evolution of grain boundary during aging

6.3.1 600 ℃ aging

6.3.2 650 ℃ aging

6.3.3 704 ℃ aging

6.3.4 720 ℃ aging

6.3.5 800 ℃ aging

6.3.6 850 ℃ aging

6.4 Evolution of hardness and impact toughness

6.4.1 Hardness

6.4.2 Impact toughness

Chapter 7 GH4080A alloy

7.1 Characteristics of GH4080A alloy

7.2 Evolution of γ′ phase during aging

7.2.1 550 ℃ aging

7.2.2 600 ℃ aging

7.2.3 650 ℃ aging

7.2.4 700 ℃ aging

7.2.5 750 ℃ aging

7.3 Evolution of grain boundary carbide during aging

7.3.1 550 ℃ aging

7.3.2 600 700 ℃ aging

7.3.3 750 ℃ aging

Chapter 8 282-series alloy

8.1 Characteristics of 282 alloy

8.2 Evolution of γ′ phase during aging

Chapter 9 GH4720Li alloy

9.1 Characteristics of GH4720Li alloy

9.2 Evolution of γ′Ⅰ phase during aging

9.2.1 720 ℃ aging

9.2.2 800 ℃ aging

9.3 Evolution of γ′Ⅱ phase during aging

9.3.1 720 ℃ aging

9.3.2 800 ℃ aging

9.4 Evolution of hardness

Chapter 10 617B alloy

10.1 Characteristics of 617B alloy

10.2 Evolution of γ′ phase during aging

10.2.1 600 ℃ aging

10.2.2 650 ℃ aging

10.2.3 704 ℃ aging

10.2.4 720 ℃ aging

10.2.5 800 ℃ aging

10.3 Evolution of grain boundary phase during aging

10.3.1 600 ℃ aging

10.3.2 650 ℃ aging

10.3.3 704 ℃ aging

10.3.4 720 ℃ aging

10.3.5 800 ℃ aging

10.3.6 850 ℃ aging

10.4 Evolution of hardness and impact toughness

10.4.1 Hardness

10.4.2 Impact toughness

Chapter 11 690 alloy

11.1 Characteristics of 690 alloy

11.2 Evolution of carbide phase during aging

11.2.1 720 ℃ aging

11.2.2 800 ℃ aging

11.2.3 850 ℃ aging

11.3 Evolution of hardness

Chapter 12 C276 alloy

12.1 Characteristics of C276 alloy

12.2 Evolution of carbide phase during aging

12.2.1 550 ℃ aging

12.2.2 750 ℃ aging

12.2.3 850 ℃ and 950 ℃ aging

12.3 Evolution of hardness

Chapter 13 G3 alloy

13.1 Characteristics of G3 alloy

13.2 Evolution of σ phase and carbide during aging

13.2.1 750 ℃ aging

13.2.2 800 ℃ aging

13.2.3 850 ℃ aging

13.3 Evolution of hardness

Chapter 14 028 alloy

14.1 Characteristics of 028 alloy

14.2 Microstructure evolution during aging

14.2.1 600 ℃ aging

14.2.2 650 ℃ aging

14.2.3 704 ℃ aging

14.2.4 720 ℃ aging

14.2.5 800 ℃ aging

14.3 Evolution of hardness