By H. Conrad, B. de Meester, M. Döner, K. Okazaki (auth.), E. W. Collings, H. L. Gegel (eds.)
This booklet is the court cases of a Symposium entitled "The Physics of Solid-Solution Strengthening in Alloys" which was once held at McCormick position, Chicago, on October 2, 1973, in organization with a joint assembly of the yank Society for Metals (ASM) and The Metallurgical Society (TMS) of the yank Institute of Mining, Metallurgical, and Petroleum Engineers (AIME). The symposium, which was once initiated and arranged via the editors of this quantity, used to be subsidized by way of the Committee on Alloy stages, Institute of Metals department, TMS, AIME, and the stream and Fracture element of the fabrics technological know-how department, ASM. The self-discipline of Alloy layout has been very energetic lately, within which substantial tension has been put on the jobs of crystallography and microstructure within the clarification and prediction of houses. Underestimated as an element of alloy layout, despite the fact that, has been the significance of actual estate reviews, although actual estate measurements have tradi tionally been hired to enhance direct or x-ray observations within the decision of section equilibrium (and, certainly, metastable equilibrium) boundaries.
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Extra resources for Physics of Solid Solution Strengthening
J. Phys. 45 511 (1967). , College of Engineering, Lecture 4 (Sept. 13-15, 1965). , Prog. Met. Phys. 7 65 (1968). OKAZAKI, K. , Tra;s. JIM 14 364 (1973). REGNIER, P. , phys. sta~ sol. 28 K55 (1968). R. , Met. Trans. 4 2605 (1973). SARGENT, G. -6 1099 (1972). J. , "Thermally Activated Motion Through a Random Array of Obstacles", John E. Dorn Memorial Symposium on Rate Processes in Plastic Deformation, ASM, in print. W. , "Physical Principles of Solid Solution Strengthening in Alloys", paper in this volume.
6 1099 (1972). J. , "Thermally Activated Motion Through a Random Array of Obstacles", John E. Dorn Memorial Symposium on Rate Processes in Plastic Deformation, ASM, in print. W. , "Physical Principles of Solid Solution Strengthening in Alloys", paper in this volume. SOLUTION HARDENING BY INTERSTITIALS IN CLOSE-PACKED METALS W. R. Tysont Department of Physics, Trent University Peterborough, Ontario, Canada ABSTRACT Solution hardening of hcp Zr, Ti, and Hf by interstitial 0 and N, and of fcc Ni and Th by interstitial C is examined in the light of existing theories.
19 1001 (1971). 35. , phys. stat. sol. 41 659 (1970). 36. , Acta Met. 20 917 (1965) . 37. L. L. Conf. Vol. , 1963, p 262. 38. , The Strengthening of Metals, Reinhold Pub. , 1964, p 93. 39. , Electron Microscopy and Strength of Crystals, Proc. 1st. Berkeley Int. Met. , Interscience, 1963, p 634. 40. , Proc. Phys. Soc. 58 669 (1946). 41. F. , Report on Strength of Solids, London Phys. , 1948, p 1. 42. , Imperfections in Nearly Perfect Crystals, Wiley, 1950. 43. , DONER, M. , Rate Processes in Plastic Deformation of Materials, ASM, Cleveland, 1975, p 175.