Thermoelasticity, pseudoelasticity and the memory effects associated with martensitic transformations

The literature pertaining to the microstructural and crystallographic features of thermoelasticity, pseudoelasticity and memory effects associated with martensitic transformations is reviewed. The interrelations between the various effects are described. An introduction to the mechanical behaviour and the thermodynamic parameters is given.

[1]  Morris Cohen,et al.  Criterion for the action of applied stress in the martensitic transformation , 1953 .

[2]  C. Zener Contributions to the Theory of Beta-Phase Alloys , 1947 .

[3]  S. Radcliffe,et al.  The thermodynamics of martensitic transformation , 1971 .

[4]  J. Venables The nucleation and propagation of deformation twins , 1964 .

[5]  K. Sugimoto,et al.  Effect of Composition on the Internal Friction and Young's Modulus in γ Phase Mn-Cu Alloys , 1973 .

[6]  A. Nagasawa A New Concept on the Shape Memory Effect in Metals and Alloys , 1971, December 16.

[7]  G. Bolling,et al.  Stress, deformation, and martensitic transformation , 1971 .

[8]  K. Sumino EXPERIMENTAL DETERMINATION OF INTRINSIC RESISTIVE STRESS FOR TWINNING SURFACE DISLOCATIONS. , 1969 .

[9]  K. Sumino,et al.  Mechanical Behaviour of Crystals with Twinned Structure , 1969 .

[10]  J. Smith,et al.  Single crystalline elastic constants of f.c.c. thallium-indium alloys , 1965 .

[11]  A. D. McQuillan,et al.  The science technology and application of titanium , 1971 .

[12]  S. Kachi,et al.  Pseudoelasticity and elastic anisotropy in the β phase thermoelastic alloys , 1971 .

[13]  A. Deruyttere,et al.  The self-accommodating character of the β1 copper-aluminum martensite , 1973 .

[14]  R. Hasiguti,et al.  Internal Friction and Related Properties of the TiNi Intermetallic Compound , 1968 .

[15]  C. M. Wayman,et al.  Some stress-temperature-energy relationships for thermoelastic martensitic transformations , 1974 .

[16]  A. Bienenstock,et al.  Elastic Constants of β‐Brass from Room Temperature to Above 520°C , 1971 .

[17]  A. Kosevich,et al.  Reviews of Topical Problems: Dislocation Theory of the Elastic Twinning of Crystals , 1971 .

[18]  C. M. Wayman,et al.  The Shape Memory (‘Marmem’) Effect in Alloys , 1972 .

[19]  E. Scheil Über die Umwandlung des Austenits in Martensit in Eisen‐Nickellegierungen unter Belastung , 1932 .

[20]  S. Zirinsky The temperature dependence of the elastic constants of gold-cadmium alloys , 1956 .

[21]  H. Alperin,et al.  Mechanism of the TiNi Martensitic Transformation and the Crystal Structures of TiNi‐II and TiNi‐III Phases , 1972 .

[22]  C. M. Wayman,et al.  Shape recovery temperature range in CuAlNi and CuZn marmem alloys , 1972 .

[23]  G. Bolling,et al.  Continual mechanical twinning: Part I: Formal description , 1965 .

[24]  H. Kaneko,et al.  THERMODYNAMICS OF THE Ms POINTS IN TITANIUM ALLOYS , 1970 .

[25]  G. Wassermann,et al.  Transformation plasticity during the martensitic transformation of iron with 30% Ni , 1972 .

[26]  Larry Kaufman,et al.  Thermodynamics and kinetics of martensitic transformations , 1958 .

[27]  J. V. Gilfrich,et al.  Effect of Low‐Temperature Phase Changes on the Mechanical Properties of Alloys near Composition TiNi , 1963 .

[28]  K. Enami,et al.  Shape memory effect associated with the martensite transformation in 304 type stainless steel , 1971 .

[29]  S. Miura,et al.  Pseudoelasticity in Au-Cd thermoelastic martensite , 1973 .

[30]  A. Deruyttere,et al.  Stress-induced transformations and the shape-memory effect , 1972 .

[31]  C. M. Wayman,et al.  The effect of austenite ordering on the martensite transformation in Fe-Pt alloys near the composition Fe3Pt: I. Morphology and transformation characteristics , 1973 .

[32]  L. Delaey,et al.  The relations between the premartensitic instability of the ß-phase and the martensite structures and the shape-memory effect in the noble metal base alloys , 1972 .