Engineering Materials: Properties and SelectionFor courses in Metallurgy and Materials Science. Co-authored by Kenneth G. Budinski and Michael K. Budinski, his son, with over 50 years of combined industry experience in the field, this practical, understandable introduction to engineering materials theory and industry-standard selection practices provides students with the working knowledge to (1) make an informed selection of materials for engineering applications and (2) correctly specify materials on drawings and purchasing documents. Encompassing all significant material systems metals, ceramics, plastics, and composites this text incorporates the most up-to-date information on material usage and availability, addresses the increasingly global nature of the field, and reflects the suggestions of numerous adopters of previous editions. |
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... austenitic stainless steels have a completely austenitic structure . The difference between the equilibrium diagram and reality is due to the fact that all commercial alloys are used in the annealed condition ; annealing requires a ...
... Austenite 200 400 2 4 6 8 10 82 % Fe Percent nickel 18 % Cr 0 % C 0 % Ni Figure 13-5 Temperature , ° F Section of the Fe - Cr - Ni ternary diagram for an alloy of 18 % chromium ; the shaded area shows the composition range for austenitic ...
... austenitic , or du- plex structures . To the designer concerned with applications , the structure is only important as it affects mechanical properties . However , the fact that some stainless alloys have an austenitic structure means ...
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Engineering Materials: Properties and Selection Kenneth G. Budinski,Michael K. Budinski No preview available - 2002 |