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Solidification behavior, microstructure, mechanical properties, hot oxidation and thermal fatigue resistance of high-silicon SiMo nodular cast irons

机译：高硅SIMO结节铸铁的凝固性能，微观结构，机械性能，热氧化和热疲劳性

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It is well known that 4 to 6% silicon spheroidal irons are suitable for use at high temperature. This paper describes solidification behavior, microstructure, mechanical properties, high temperature oxidation, and thermal fatigue of high-silicon SiMo cast irons. Cooling curves of cast irons were recorded using a thermal analysis apparatus to correlate with the solidified microstructures. Uniaxial constrained thermal fatigue testing was conducted in which the cycling temperatures were between 500°C and 950°C. Oxidation behavior was studied by measuring the specimen weight and the penetration depth of oxides from laboratory cyclic oxidation testing. The coefficient of thermal expansion and critical temperature of the phase transformation A1 during heating were determined through dilatometry testing.

机译：众所周知，4至6％的硅球形铁杆适用于高温。本文介绍了高硅SIMO铸铁的凝固行为，微观结构，机械性能，高温氧化和热疲劳。使用热分析装置记录铸铁的冷却曲线，以与固化的微结构相关联。进行单轴约束热疲劳试验，其中循环温度在500℃至950℃之间。通过测量来自实验室环氧化试验的试样重量和氧化物的渗透深度来研究氧化行为。通过稀释测定试验确定加热过程中相变A1的热膨胀系数和临界温度。

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《SAE World Congress》|2005年||共12页
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作者
D. Li; R. Perrin; G. Burger; D. McFarlan; B. Black; R. Logan; R. Williams;
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原文格式 PDF
正文语种
中图分类 U46-53;
关键词
Automobile materials; Cast iron; Iron alloys; Molybdenum; Properties; Silicon; Turbocharging;

机译：汽车材料;铸铁;铁合金;钼;属性;硅;涡轮增压;

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4. Solidification behavior, microstructure, mechanical properties, hot oxidation and thermal fatigue resistance of high-silicon SiMo nodular cast irons [C] . D. Li, R. Perrin, G. Burger, SAE World Congress . 2005

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Solidification behavior, microstructure, mechanical properties, hot oxidation and thermal fatigue resistance of high-silicon SiMo nodular cast irons

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