Shape Memory and Superelasticity View Homepage


Ontology type: schema:Periodical     


Journal Info

START YEAR

2015

PUBLISHER

Springer US

LANGUAGE

en

HOMEPAGE

http://link.springer.com/journal/40830

Recent publications latest 20 shown

  • 2021-12-10 Applying Full-Field Measurement Techniques for the Thermomechanical Characterization of Shape Memory Alloys: A Review and Classification
  • 2021-11-24 Coherent Precipitates as a Condition for Ultra-Low Fatigue in Cu-Rich Ti53.7Ni24.7Cu21.6 Shape Memory Alloys
  • 2021-11-23 Continuous Heating Dissolution and Continuous Cooling Precipitation Diagrams of a Nickel-Titanium Shape Memory Alloy
  • 2021-11-23 Cardiovascular Implant Durability Conference (CVID) Rescheduled to April
  • 2021-11-23 SMST 2022 Conference to be Held in San Diego, California
  • 2021-11-05 Effect of Ce and Sb Elements Addition on Porous Ti–23 wt%Nb–Sn for Biomedical Applications
  • 2021-09-24 Microstructural, Mechanical, and Superelastic Behavior of Thermo-Mechanically Processed Nitinol Alloy
  • 2021-09-09 SMST and Journal Editorial Board Members Named 2021 ASM Awardees and Fellows
  • 2021-09-08 Cardiovascular Implant Durability Conference (CVID) to be Held in October
  • 2021-09-08 Effect of Al Content on Abnormal Grain Growth and Superelasticity in Fe–Mn–Al–Cr–Ni Shape Memory Alloys with Near-Zero Temperature-Dependence of Transformation Stress
  • 2021-09-02 Effect of Ni/Ti Ratio and Ta Content on NiTiTa Alloys
  • 2021-08-25 Processing, Preaging, and Aging of NiTi-20 at.% Hf High-Temperature Shape Memory Alloy from Laboratory to Industrial Scale
  • 2021-08-25 CASMART 4th Student Design Challenge Held Virtually
  • 2021-08-24 2021 SMST Founders’ Grant
  • 2021-08-17 Alternative Thermal Cycling Treatment to Produce Abnormal Grain Growth in FeMnAlNi Alloys: Study of Composition Variations and Effects on the Relative Phase Stabilities
  • 2021-08-12 Relationship between Chemical Composition and Ms Temperature in High-Entropy Shape Memory Alloys
  • 2021-08-12 Special Issue Focus on Fe-Based Shape Memory Alloys
  • 2021-08-10 Cryogenic Treatment Effect on Cyclic Behavior of Ni54Ti46 Shape Memory Alloy
  • 2021-08-02 Crystallography of Fe–Mn–Al–Ni Shape Memory Alloys
  • 2021-07-26 Effect of Crystallographic Orientation and Grain Boundaries on Martensitic Transformation and Superelastic Response of Oligocrystalline Fe–Mn–Al–Ni Shape Memory Alloys
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    The Shape Memory and Superelasticity journal invites original peer-reviewed papers that focus on shape memory materials research with contributions from materials science, materials engineering, experimental and theoretical mechanics, mathematics and physics. Of particular interest is to understand the response of these materials to external stimuli such as force, displacement, temperature, magnetic fields, irradiation, corrosive media and so on in pursuit of uncovering new phenomenon, new materials and new applications as follows: (i) the journal papers will examine these materials utilizing the principles of continuum mechanics, micromechanics, microstructuraly informed constitutive modeling, atomistic models, mathematics of microstructures and other methodologies. (ii) the development and use of advanced experimental techniques to expose and understand the shape memory response including thermal and mechanical cycling, application of magnetic and other external fields,  (iii) the exploration and further understanding of shape memory materials due to fatigue, fracture and environmental factors are of significant interest; (iv) novel applications of the materials will be explored in all areas including bio-medical devices, actuators, thin films, robotics, mechanical and aerospace engineering components, civil engineering structures, and micro-electromechanical systems (MEMS)

    All articles published in the first two volumes (2015-2016) of Shape Memory and Superelasticity are open access. They are free to read and can be shared with your colleagues.

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