The Fatigue of Magnesium at High Temperature

Metal Science Journal Pub Date : 1900-01-01 DOI:10.1179/MSC.1967.1.1.140
R. Skelton
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引用次数: 14

Abstract

AbstractHigh-frequency (10–1700 c/s) push/pull fatigue tests on a magnesium alloy at 0.75 of the melting point show that the rate of fatigue-hardening generally increases with increasing frequency and stress level. The time to onset of major crack propagation is virtually independent of frequency, though decreasing slightly at the higher frequencies. Beyond this point, the rate of crack propagation may be either time- or cycle-dependent, according to stress level. Fatigue specimens show marked grain growth at a rate that increases with increasing stress level. High-frequency tests are associated with less growth and enhanced boundary cavitation. Smaller grains give rise to less overall plastic strain than large grains and evidence is presented of grain-boundary sliding during fatigue.
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镁在高温下的疲劳
摘要:对熔点为0.75的镁合金进行频率(10 ~ 1700 c/s)推拉疲劳试验表明,镁合金的疲劳硬化速率随频率和应力水平的增加而增加。大裂纹扩展的开始时间几乎与频率无关,尽管在较高频率下略有下降。超过这一点,根据应力水平,裂纹扩展速率可能是时间或周期相关的。疲劳试样显示出明显的晶粒生长速度随应力水平的增加而增加。高频试验与较少的生长和增强的边界空化有关。与大晶粒相比,小晶粒产生的整体塑性应变较小,疲劳过程中晶界发生滑动。
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Metal Science Journal
Metal Science Journal
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