Detailed study of cast irons, engineering alloy steels, and non-ferrous alloys like copper, aluminum, and titanium. Advanced Materials:
Alloying is necessary to improve pure metals for specific engineering applications.
The journey begins by exploring the Structure of Materials , including unit cells and crystal systems. It explains why materials behave the way they do based on their atomic bonds and imperfections like point and line defects.
It offers a comprehensive classification of steels and cast irons. Furthermore, it dives into non-ferrous metals like Copper, Aluminum, and Titanium, explaining their alloys and industrial applications.
Material Science and Metallurgy Author: V.D. Kodgire Format: PDF
: Previews and archived versions of older editions can occasionally be found on academic sharing sites like specific chapter
Detailed study of cast irons, engineering alloy steels, and non-ferrous alloys like copper, aluminum, and titanium. Advanced Materials:
Alloying is necessary to improve pure metals for specific engineering applications.
The journey begins by exploring the Structure of Materials , including unit cells and crystal systems. It explains why materials behave the way they do based on their atomic bonds and imperfections like point and line defects.
It offers a comprehensive classification of steels and cast irons. Furthermore, it dives into non-ferrous metals like Copper, Aluminum, and Titanium, explaining their alloys and industrial applications.
Material Science and Metallurgy Author: V.D. Kodgire Format: PDF
: Previews and archived versions of older editions can occasionally be found on academic sharing sites like specific chapter