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Dynamic Behavior and Shock Absorption Properties of Porous Shape Memory Alloys

机译：多孔形状记忆合金的动态行为和减振性能

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Two methods for producing porous NiTi shape memory alloy (SMA) were used in this work: conventional sintering and sintering at elevated pressure using a Hot Isostatic Press. Depending on various parameters such as sintering times and temperatures, as well as initial powder size and compaction, porous specimens have been produced with varying average pore sizes. The phase transformation temperatures of the porous NiTi specimens were determined using a Differential Scanning Calorimeter, while their microstructure and phase compositions were analyzed using X-Ray Diffraction and a Scanning Electron Microscope aided with Electron-Probe Micro Analysis. Quasi-static and dynamic tests under compression were carried out on various porous NiTi samples to evaluate the pseudo-elasticity and the martensitic detwinning behavior. The effective response of the porous SMAs was modeled using micromechanical averaging techniques. The current work establishes a macroscopic constitutive model for the porous SMA material using the properties of the dense SMA and information about pore shape, volume fraction as well as given pore orientation. A constitutive model for the SMA matrix, which is capable of accounting for the development of plastic strains, was developed as part of the modeling effort. The results from the numerical simulations were compared with the experimental data.

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Lagoudas, D. C.;
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年度 2002
页码 1-12
总页数 12
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Shape memory alloys; Microstructure; Sizes(Dimensions); Phase transformations; Dynamic response; Electron microscopes; X ray diffraction; Shock absorbers; Isostatic pressing; Dynamic loads; Nickel alloys; Powder metallurgy; Micromechanics; Titanium alloys; Sintering; Porous metals;

机译：形状记忆合金;微观结构;尺寸（尺寸）;相变;动态响应;电子显微镜; X射线衍射;减震器;等静压;动态载荷;镍合金;粉末冶金;微观力学;钛合金;烧结;多孔金属;

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机译：校正：多孔形状记忆合金的超弹性塑性行为建模，包括空隙形状效应

Dynamic Behavior and Shock Absorption Properties of Porous Shape Memory Alloys

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