Thermoplasticity, pseudoelasticity and the memory effects associated with martensitic transformations

Krishnan, RV; Delaey, L.; Tas, H.; Warlimont, Hans

doi:10.1007/bf00552940

Cited by 80 publications

(17 citation statements)

References 17 publications

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“…Finaly, cooling takes place along EO until the specimen has returned to its initial state. Figure 12 is qualitatively similar to the schematic description of the shape-memory effect given by Krishnan, Delaey, Tas and Warlimont (1974) …”

Section: Isothermal Mechanical Loading and Unloadingsupporting

confidence: 74%

A continuum model of a thermoelastic solid capable of undergoing phase transitions

Abeyaratne

Knowles

1993

Journal of the Mechanics and Physics of Solids

258

116

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Section: Isothermal Mechanical Loading and Unloadingsupporting

confidence: 74%

A continuum model of a thermoelastic solid capable of undergoing phase transitions

Abeyaratne

Knowles

1993

Journal of the Mechanics and Physics of Solids

258

116

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“…Since the Shape Memory Effect (SME for short) was observed in Cu-Zn alloy , and in NiTi alloy (Buehler, Gilfrich, & Wiley, 1963), SMA (especially NiTi alloy) has been widely used as intelligent material for its particular characteristics, such as large load capacity, high recovery strain up to 8%, excellent fatigue performance, variable elastic modulus with phase transformation, and especially the two main interesting properties, SME and Pseudo-elasticity (PE) due to the diffusionless martensitic transformation, as discussed elsewhere Krishnan et al, 1974;Warlimont et al, 1974;Funakubo, 1987;Otsuka & Wayman, 1998).…”

Section: Introductionmentioning

confidence: 99%

Applications of SMA Bundles in Practical Concrete Structures

Li¹,

Li²,

Zhang³

2013

Shape Memory Alloys - Processing, Characterization and Applications

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“…de níquel e, o restante, de titânio. O Nitinol possui uma composição ao redor da equiatômica e, é um material sensível a pequenas variações composicionais, as quais causam grandes mudanças nas temperaturas de transformação de fase, afetando assim, o campo de aparecimento do efeito memória de forma e superelasticidade [1,2]. No caso de operações de cortes, tanto corte de natureza mecânica como também térmica devem ser observados com atenção nestes materiais tendo em vista sua habilidade de modificação estrutural por solicitação mecânica e/ou ciclo térmico.…”

Section: Introductionunclassified

INFLUÊNCIA DA POTÊNCIA DO LASER PARA O CORTE DE UMA LIGA DE NiTi COM AUSTENITA ENCRUADA

Paula¹,

Fontanezzi²,

Freitas³

et al. 2018

ABM Proceedings

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ResumoO objetivo deste trabalho foi avaliar a influência da potência do laser Yb:vidro a fibra, no que diz respeito a extensão dos efeitos estruturais promovido e a possibilidade de corte de uma chapa de NiTi equiatômica austenítica com evidência de encruamento. Após a tentativa de corte a laser, a caracterização foi realizada através de microscopia óptica, microscopia eletrônica de varredura (MEV) / espectroscopia de energia dispersiva de Raios X (EDS) e análise de nanoindentação instrumentada. De acordo com os resultados obtidos pode-se observar que nenhum dos parâmetros de corte a laser usados nos 3 cortes distintos foi suficiente para promover o seccionamento da chapa, bem como revelou evidências de recristalização em conjunto a uma significativa oxidação superficial na zona termicamente afetada. Palavras-chave: Liga de NiTi equiatômica; Austenita encruada; Corte a laser. LASER POWER INFLUENCE TO CUT AN NiTi ALLOY WITH HARDENED AUSTENITE AbstractThe purpose of this work was to evaluate the influence of fiber Yb:glass laser power, respect to the extent of structural effects promoted and the possibility of cutting an austenitic equiatomic NiTi alloy plate with structure hardening evidence. After trying laser cutting, the material characterization was performed by Optical microscopy, scanning electron microscopy (SEM) / X-ray energy dispersive spectroscopy (EDS) and instrumented ultra-micro hardness analysis. According to the results, it can be seen that none of the laser cutting parameters used in three distinct cutting was sufficient to promote the sheets separation, and revealed recrystallization evidences in conjunction of a significant surface oxidation on heat-affected zone.

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Thermoplasticity, pseudoelasticity and the memory effects associated with martensitic transformations

Cited by 80 publications

References 17 publications

A continuum model of a thermoelastic solid capable of undergoing phase transitions

A continuum model of a thermoelastic solid capable of undergoing phase transitions

Applications of SMA Bundles in Practical Concrete Structures

INFLUÊNCIA DA POTÊNCIA DO LASER PARA O CORTE DE UMA LIGA DE NiTi COM AUSTENITA ENCRUADA

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