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This appendix provides additional information on superalloy microstructures. It includes several micrographs showing metallographic features mentioned in the text but not illustrated elsewhere in the book. It also discusses carbide reactions that occur during heat treating and demonstrates the use of electron vacancy calculations to estimate the resistance of superalloys to the formation of topologically close-packed phases.

This appendix provides references for additional information on titanium and its alloys. The references are organized by topic based on the author’s recommendations. Topics include physical metallurgy, corrosion, processing, applications and developments, and general background.

This chapter presents the following groupings of metals and alloys that are soldered together: steel and iron-base alloys, aluminum and aluminum alloys, and copper and copper alloys. It also presents the ancillary materials and process methods that assist the solder filler metal in completing the solder joint through induction heating. The chapter focuses on the selection of fluxes and the use of inert gases or even vacuum to realize an oxide-free base material surface both before and during the soldering process.

This chapter gives a brief review of the development of additive manufacturing (AM) and the appeal of different of different AM methods.

This chapter assesses the state of 3D printing among automakers, medical device manufacturers, and construction companies.

This chapter reviews some of the differences between powder metallurgy and additive manufacturing and explains how they influence the microstructure and properties of various alloys and the formation of defects in manufactured parts.

This chapter discusses the advantages and limitations of 3D printing technology for the production of batteries and supercapacitors. It explains how 3D printing methods facilitate the build of microdevices with hierarchical nanoarchitectures and controlled microstructure. It also reviews recent progress in fabricating electrodes and electrolytes using 3D-printed functional materials.