Simulation of Pseudoelastic NiTi Shape Memory Alloys under Compressive Loading to Assess the Potential use in Vibration Damping in the Tool Interface

Yannic Zwinscher, F. Hoffmann, Simon Horn, R. Krieg, R. Theiss, P. Dültgen, Niclas Klumpen, C. Brecher, S. Neus
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Abstract

Passive vibration isolation is a key element to achieve precise results in milling processes and to increase tool durability. Damping of vibrations near to the cutting edge is considered highly effective as well as hard to implement because of the limited damping properties of conventional materials in the available space. The use of damping elements made of NiTi shape memory alloys (SMA) represents an innovative approach. Their use is based on the ability to convert mechanical energy into thermal energy through the pseudoelastic effect, whereby the pronounced conversion hysteresis of the material provides information about the usable damping potential. Studies on the properties of pseudoelastic SMA under compressive loading are only sporadically available in comparison to tensile loading. In this paper, the stress-compression curves and the hysteresis energy of tests results are compared with the results of finite element simulations. The simulation results based on the material model used so far is a good basis for the further development of damping elements.
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压缩载荷下假弹性NiTi形状记忆合金的模拟及其在刀具界面减振中的潜在应用
被动隔振是在铣削过程中实现精确结果和提高刀具耐用性的关键因素。切削刃附近的振动阻尼被认为是非常有效的,但由于传统材料在可用空间中的阻尼性能有限,因此很难实现。使用由NiTi形状记忆合金(SMA)制成的阻尼元件代表了一种创新的方法。它们的用途是基于通过伪弹性效应将机械能转换为热能的能力,因此材料的明显转换滞后提供了有关可用阻尼势的信息。与拉伸载荷相比,对压缩载荷下伪弹性SMA性能的研究只是零星的。本文将试验结果的应力压缩曲线和滞回能与有限元模拟结果进行了比较。目前所采用的基于材料模型的仿真结果为阻尼元件的进一步开发提供了良好的基础。
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