热塑性复合材料的加速强度试验

J. Reeder, D. Allen, W. Bradley
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引用次数: 6

摘要

在149℃至232℃的恒温范围内,对定向90°方向的单向热塑性复合材料试样进行了恒定斜坡强度测试,测试了跨越5个数量级的斜坡速率,以便在0.5秒至24小时的范围内发生失效。(0.5 ~ 100,000 MPa/秒)。在204℃以下,保持时间-温度叠加,允许从较短时间但较高温度下的强度试验中估计较长时间的强度。数据表明,当试验时间增加9个数量级时,该材料的强度可能会下降50%。从顺应性数据得出的位移因子很好地应用于强度结果。为了解释柔度与强度之间的联系,研究了粘弹性断裂模型。该模型使用柔度作为输入,只有在允许临界断裂能随温度降低应力速率变化的情况下,才能拟合强度数据。这种关键参数的变化严重限制了其在开发鲁棒时变强度模型中的应用。因此,这项研究的意义在于提供了一种更通用的强度加速方法可以开发的指示,以及证明需要这种方法的证据。
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Accelerated Strength Testing of Thermoplastic Composites
Constant ramp strength tests on unidirectional thermoplastic composite specimens oriented in the 90 deg. direction were conducted at constant temperatures ranging from 149 C to 232 C. Ramp rates spanning 5 orders of magnitude were tested so that failures occurred in the range from 0.5 sec. to 24 hrs. (0.5 to 100,000 MPa/sec). Below 204 C, time-temperature superposition held allowing strength at longer times to be estimated from strength tests at shorter times but higher temperatures. The data indicated that a 50% drop in strength might be expected for this material when the test time is increased by 9 orders of magnitude. The shift factors derived from compliance data applied well to the strength results. To explain the link between compliance and strength, a viscoelastic fracture model was investigated. The model, which used compliance as input, was found to fit the strength data only if the critical fracture energy was allowed to vary with temperature reduced stress rate. This variation in the critical parameter severely limits its use in developing a robust time-dependent strength model. The significance of this research is therefore seen as providing both the indication that a more versatile acceleration method for strength can be developed and the evidence that such a method is needed.
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