试验包括形状记忆合金丝的本构试验、疲劳试验和形状记忆合金阻尼器的性能试验。
The whole tests include SMA line constitutive test and fatigue test and cone SMA damper performance test.
在结构中埋入形状记忆合金丝网络,对增强结构强度、改善自修复的质量均起到了良好的作用。
The shape memory alloy (SMA) wire network was embedded to enhance the structure strength and improve the quality of self-repairing.
提出了嵌入形状记忆合金丝和压电陶瓷片作为联合变形驱动器的二元智能结构,并建立了有限元模型。
A hybrid smart structure integrated with shape memory alloy slims and piezoelectric ceramic patches as united actuators, was presented and modeled by finite element methods.
形状记忆合金丝还能提高梁的热屈曲临界温度,抑制梁热屈曲的发生或使已发生热屈曲的梁回复到原来的平衡状态。
Shape memory alloy wires can increase the critical temperature of the beam, and also can restrain thermal buckling occurring or make the post-buckled beam back to initial equilibrium states.
该训练测试系统能够方便地实现不同型号形状记忆合金丝的自动训练过程,并能测试形状记忆合金丝在不同通电条件和外力条件下的性能。
SMA wires with different diameters can be trained conveniently by the present system. The performance of SMA wires in different electric currents and external forces can also be measured.
该训练测试系统能够方便地实现不同型号形状记忆合金丝的自动训练过程,并能测试形状记忆合金丝在不同通电条件和外力条件下的性能。
SMA wires with different diameters can be trained conveniently by the present system. The performance of SMA wires in different electric currents and external forces can also be measured.
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