基于等温循环数据的热-机械疲劳迟滞曲线建模

R. Skelton, G. Webster, B. D. Mestral, C.Y. Wang
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引用次数: 13

摘要

描述了一种简单的TMF设备,它能够“同相”,“非相”和“钻石”型应变-温度循环。在400℃-1000℃的温度范围内,镍基合金IN100、Nimonic 90、IN738和定向凝固的CM247LC-DS的“金刚石”型循环中出现了典型的TMF回路。除了这些结果之外,还提供了在离散温度下上升和下降应变幅值的等温循环应力-应变数据,包括TMF试验的应变和温度范围。在一个固定的能量消耗后,终止对任何单个试样的测试。通过叠加关于一个共同起源的对称等温回路,然后使用等温数据来预测观察到的(不对称的)TMF行为。该方法适用于IN100等具有历史独立性的材料。但是,对于某些材料,需要对程序进行轻微修改。证明了该方法对等温数据形式的敏感性。
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Modelling Thermo-mechanical Fatigue Hysteresis Loops from Isothermal Cyclic Data
A simple TMF facility is described which is capable of 'in-phase', 'out of phase' and 'diamond' type strain-temperature cycling. Typical TMF loops are presented for the 'diamond' type cycle for the nickel-base alloys IN100, Nimonic 90, IN738 and directionally solidified CM247LC-DS over the temperature range 400 °C-1000 °C. Alongside these results, isothermal cyclic stress-strain data are provided for ascending and descending strain amplitudes at discrete temperatures encompassing the strain and temperature range of the TMF tests. Testing on any individual specimen was terminated after a fixed energy consumption. By superimposing the symmetrical isothermal loops about a common origin, the isothermal data are then used to predict the observed (asymmetrical) TMF behaviour. The method works well for materials which show history independence such as IN100. However, for some of the materials, slight modification to the procedure is required. The sensitivity of the method to the form of isothermal data is demonstrated.
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