Cyclic hardening/softening experimental data in nano-clay-composite and aluminum alloy under high-temperature strain-controlled loading

M. Azadi, H. Bahmanabadi, F. Gruen, G. Winter, B. Seisenbacher
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Abstract

Abstract This article presents cyclic hardening/softening behaviors (experimental data) of the heat-treated aluminum-matrix nano-clay-composite (AlSi_N_HT6), compared to those of the piston aluminum alloy (AlSi) under strain-controlled loading. For such an objective, standard samples were fabricated by gravity and stir-casting methods. Low-cycle fatigue experiments were carried out under different strain amplitudes (0.20–0.45%) and at various temperatures (25–300°C). Obtained results implied that no obvious change was observed on material properties of aluminum alloy by reinforcements, but a decrement was observed due to increasing the temperature. Results also indicated that the increase of the temperature from 25°C to 200°C has changed the cyclic behavior of both materials (AlSi_N_HT6 and AlSi) from hardening to softening. Moreover, the temperature effect was more significant than the total strain amplitude influences in cyclic behaviors.
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高温应变控制载荷下纳米粘土-复合材料和铝合金循环硬化/软化实验数据
摘要:本文研究了热处理铝基纳米粘土复合材料(AlSi_N_HT6)与活塞式铝合金(AlSi)在应变控制载荷下的循环硬化/软化行为(实验数据)。为此,采用重力法和搅拌铸造法制备了标准样品。进行了不同应变幅值(0.20 ~ 0.45%)和不同温度(25 ~ 300℃)下的低周疲劳试验。结果表明,增强后铝合金的材料性能没有明显变化,但随着温度的升高,材料性能有所下降。结果还表明,温度从25℃升高到200℃,两种材料(AlSi_N_HT6和AlSi)的循环行为都发生了由硬化到软化的变化。温度效应比总应变幅值对循环行为的影响更为显著。
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