冷却速率对ZnAl4Cu1合金阻尼特性的影响

G. Piwowarski, Beata Gracz
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引用次数: 0

摘要

本文介绍了ZnAl4Cu1合金(ZL5)阻尼系数的试验结果。利用信号回波法对试样进行了测量,计算了阻尼系数。该方法包括使超声波穿过被测材料。来自发射和接收头的超声波穿过样品,从其底面反弹,并以信号回波的形式返回到测量头。第一和第二回波之间的信号强度与超声波传播距离的差异是材料阻尼特性的度量。这些标本被浇铸在三种不同材料的模具中,即绿砂、石膏和金属。这些材料的热物理性质不同,影响铸件的吸热率。得到了以不同速率冷却的三个系列的试样。然后对试样进行超声和显微测试,以评估合金的组织。合金内部组织在很大程度上影响其阻尼性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of the Cooling Rate on Damping Characteristics of the ZnAl4Cu1 Alloy
The paper presents the results of damping coefficient tests in the ZnAl4Cu1 alloy (ZL5). The damping coefficient has been calculated on the basis of specimen measurements obtained with the use of the signal echo method. The method consists in passing the ultrasonic wave through the tested material. The ultrasonic wave from a transmitting and receiving head passes through a specimen, bounces off its bottom surface and comes back to the measuring head in the form of a signal echo. Difference in the signal strength between the first and the second echo in relation to the distance travelled by the ultrasound wave is a measure of the material’s damping characteristics. The specimens were cast into three molds made of different materials, i.e. green sand, plaster and metal. Thermophysical properties of these materials are different what affecting the rate of heat absorption from the cast. Three series of specimens have been obtained which cooled at different rates. The specimens were then subjected to ultrasound and microscopic tests to assess the alloy structure. The internal alloy structure affects its damping properties to a great extent.
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