The Quenching of Steels |
Contents
CHAPTER IIntroductionMethods and equipment for obtaining cooling | 1 |
10 | 35 |
Comparison of the coolants in relation to size of sphere | 72 |
Copyright | |
2 other sections not shown
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Common terms and phrases
1-Inch Spheres Quenched 1290 degrees Fahr 1605 Degrees Fahr 20 Degrees Cent 65 Degrees 875 Degrees Cent Austenite Average Cent Carbon Steel cent sodium hydroxide Center and Surface center cooling curves center cooling velocity changes COOL FROM 875 Coolant Motion cooling range critical cooling rates diameter different coolants Different Temperatures electromotive force equation experimental experiments Feet Per Second gages hardening heat treatment Heated in Air increase knurled liquid manganese Martensite metal method NaCl NaOH Nitric Acid oxide Pearlite plates Quenched from 875 quenched in water quenching temperature rapid cooling ROCKWELL HARDNESS rounds shown in Fig sizes and shapes sodium chloride sodium hydroxide solutions sorbite specimen speeds of cooling Spheres of Different Steel Spheres sulphuric acid Surface Cooling Curves surface per unit Table taken at 720 temperature range tensile strength thermocouple TIME-SECONDS Fig transformations troostite unit of volume Water at 20 water quenching
References to this book
Handbook of Quenchants and Quenching Technology George E. Totten,C. E. Bates,N. A. Clinton Limited preview - 1993 |
Transactions of American Society for Metals, Volume 50 American Society for Metals No preview available - 1958 |