An acoustical-ultrasonic technique was used to demonstrate relationships existing between changes in attenuation of stress waves and tensile stress on an eight ply 0 degree graphite-epoxy fiber reinforced composite. All tests were conducted in the linear range of the material for which no mechanical or macroscopic damage was evident. Changes in attenuation were measured as a function of tensile stress in the frequency domain and in the time domain. Stress wave propagation in these specimens was dispersive, i.e., the wave speed depends on frequency. Wave speeds varied from 267,400 cm/sec to 680,000 cm/sec as the frequency of the signal was varied from 150 kHz to 1.9 MHz which strongly suggests that flexural/lamb wave modes of propagation exist. The magnitude of the attenuation changes depended strongly on tensile stress. It was further observed that the wave speeds increased slightly for all tested frequencies as the stress was increased.
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机译:声学超声技术被用来证明在八层0度石墨-环氧树脂纤维增强复合材料上应力波衰减变化和拉应力之间存在的关系。所有测试均在材料的线性范围内进行,没有明显的机械或宏观损伤。在频域和时域中测量衰减的变化作为拉伸应力的函数。这些样品中的应力波传播是分散的,即波速取决于频率。当信号频率从150 kHz改变为1.9 MHz时,波速从267,400 cm / sec改变为680,000 cm / sec,这强烈表明存在弯曲/拉姆波传播模式。衰减变化的幅度很大程度上取决于拉伸应力。进一步观察到,随着应力的增加,所有测试频率的波速都略有增加。
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