Physical Properties of Martensite and Bainite: Report of the Proceedings of the Joint Conference Organized by the British Iron and Steel Research Association and the Iron and Steel Institute and Held at Scarborough, on 10, 11, and 12 May 1965 |
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Results 1-3 of 84
Page 53
... tion ' should be discontinued . The influences of composition , annealing temperature , and cooling rate in deciding which of the two transforma- tions occurs are discussed briefly . MICROCONSTITUENT α 2614 been reported . Massalski5 ...
... tion ' should be discontinued . The influences of composition , annealing temperature , and cooling rate in deciding which of the two transforma- tions occurs are discussed briefly . MICROCONSTITUENT α 2614 been reported . Massalski5 ...
Page 126
... tion . 10-13 This work has shown that at about 350 ° C there is a sharp change in the activation energy in all the steels examined . This change in activation energy is associated with the transi- tion from the lower to the upper ...
... tion . 10-13 This work has shown that at about 350 ° C there is a sharp change in the activation energy in all the steels examined . This change in activation energy is associated with the transi- tion from the lower to the upper ...
Page 132
... tion relationship16 ( 111 ) , [ 110 ] ( 101 ) . [ 111 ] α · ( 4 ) By relating the cementite to austenite by the same variant of ( 3 ) above and then using different variants of ( 4 ) to relate the austenite and ferrite , it is possible ...
... tion relationship16 ( 111 ) , [ 110 ] ( 101 ) . [ 111 ] α · ( 4 ) By relating the cementite to austenite by the same variant of ( 3 ) above and then using different variants of ( 4 ) to relate the austenite and ferrite , it is possible ...
Contents
38 | 8 |
90 | 18 |
Martensite transformation in terms of elastic moduli | 26 |
Copyright | |
13 other sections not shown
Common terms and phrases
Acta aging alloys atoms ausformed austenite austenitizing temperature bainite plates bainite reaction bainitic ferrite bainitic structure Burgers vector cal/mole carbide carbon content carbon steels cementite composition correspondence crystal crystallographic curves decreasing diffusion dislocations ductile effect embryos experimental F. B. PICKERING Fe-Ni flow stress formation fracture growth habit plane hardening high-carbon ibid increase inhomogeneous shear interface internally twinned iron-nickel isothermal isothermal transformation J. W. CHRISTIAN JISI Kelly kinetics lattice lb/inē lower bainite marten martensite plates martensitic transformation massive martensite mechanism microstructure Mo-B steels morphology needles nickel nucleation observed obtained occurs orientation relationship orthorhombic parent phase pearlite precipitation quenching range region room temperature ruthenium showed shown in Figure solid solution specimens stabilization stacking fault energy stacking faults strain substructure surface martensite tempering tensile strength theory thermal tion tons/inē trans transformation plasticity transformation temperature ture twinned martensite upper bainite variation Warlimont yield stress