嵌入形状记忆合金纤维复合材料圆板的弯曲

BENDING OF COMPOSITE CIRCULAR PLATES EMBEDDED WITH SHAPE MEMORY ALLOY FIBERS

  • 摘要: 基于形状记忆合金Brinson一维热力学本构关系和vonK\'arm\'an几何非线性薄板理论,研究了径向嵌入SMA丝复合材料加热圆板在横向均布机械载荷作用下的弯曲响应,获得了周边不可移简支和夹紧圆板的中心最大挠度与升温之间的关系曲线. 结果表明,形状记忆合金丝在从马氏体向奥氏体的逆相变过程中所产生的相变回复力对板的弯曲变形具有明显的调整作用. 通过嵌入SMA纤维丝和施加升温载荷可以主动而有效地调节受机械载荷作用圆板的弯曲变形.

     

    Abstract: Based on Brinson's one-dimensional thermo-mechanicalconstitutive relations of shape memory alloys and the von K\'arm\'an theory of thin plates, the bending response of a uniform heatedcircular plate embedded with SMA fibers in the radial directions andsubjected to a uniform distributed mechanical load is studied. Thecharacteristic curves of the deflection at the center versus temperature rise ofthe circular plate with both clamped and simply supported boundaryconditions are obtained. The numerical results show that, the recoveryforces of the pre-strained SMA caused by the phase transformation frommartensite to austenite can modify the bending deformation significantly.So, it is concluded that the bending deformation can be adjustedeffectively and actively by embedment of the SMA fibers into the circularplates.

     

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