Description
The book covers the development of new technologies for the joining of TiAl alloys that result in sound bonds obtained in less demanding conditions. It discusses joint processing, microstructural and mechanical characterization, and summarizes developments in new approaches to the joining of TiAl alloys using advanced characterization techniques.
Table of Contents
gamma -Tial Alloys
Introduction
Structure of gamma -Tial Alloys
Properties of gamma -Tial Alloys
Processing of gamma -Tial Alloys
Concluding Remarks
References
Joining of gamma -Tial Alloys
Introduction
Fusion Welding
Friction Welding
Brazing
Concluding Remarks
References
Diffusion Bonding of gamma -Tial Alloys
Introduction
Diffusion Bonding
Diffusion Bonding of gamma -Tial Alloys
Concluding Remarks
References
Reactive Multilayers as Interlayer for Joining Processes
Introduction
Reactive Multilayers
Concluding Remarks
References
Diffusion Bonding of gamma -Tial Alloys Assisted by Reactive Multilayers
Introduction
Diffusion Bonding of gamma -Tial Alloys Using Ti/Al Reactive Multilayers
Diffusion Bonding of gamma -Tial Alloys Using Ni/Al Reactive Multilayers
Diffusion Bonding of gamma -Tial Alloys Using Ni/ Ti Reactive Multilayers
Concluding Remarks
References
Joining of gamma -Tial Alloys to Steel
Introduction
Joining of gamma -Tial Alloys to Steel
Diffusion Bonding of gamma -Tial Alloys to Steel with Reactive Multilayers
Concluding Remarks
References
Joining of gamma -Tial Alloys to Superalloys
Introduction
Joining of gamma -Tial Alloys to Superalloys
Joining of gamma -Tial Alloys to Superalloys With Reactive Multilayers
Concluding Remarks
References
Combination of Reactive Multilayers and Brazing Alloys for Improving Joining Processes
Introduction
Nanofoil®
Joining Processes Assisted by the Combination of Reactive Multilayers and Brazing Alloys
Joining of gamma -Tial Alloys Using the Combination of Reactive Multilayers and Brazing Alloys
Concluding Remarks
References
