Microstructure and Mechanical Properties of Mullite Composites via Pressure Molding and by Oxidation of an Al-Si Alloy Powder

Shun Li; Jiachen Liu; Zhongqiu Li; Wei Fan; Pengyu Zhang

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Microstructure and Mechanical Properties of Mullite Composites via Pressure Molding and by Oxidation of an Al-Si Alloy Powder

机译：莫来石复合材料的压铸和Al-Si合金粉末的氧化组织与力学性能

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A novel technique to synthesize mullite by the oxidation of Al-Si alloy powder was used for the manufacture of mullite via pressure molding. The mixed powder was consisted of powders of Al-Si alloy, Al_2O_3 and SiO_2 and additives or powders of Al-Si alloy, Al_2O_3, SiO_2 and ZrO_2 and additives. Those mixed powders were milled in nonaqueous slurry in order to prevent the oxidation of Al-Si alloy. Then the green bodies were pressureless sintered in air at ≥ 1380℃. The Oxidation caused an internal volume expansion, resulting in reducing shrinkage stresses during reaction- bonding of composites, which minimized the sensitivity to crack formation. Comparing with non zirconia reinforced mullite composites, the effect of the microstructure and mechanical properties of mullite composites were studied.

机译：一种通过Al-Si合金粉末的氧化合成莫来石的新技术被用于通过压力成型制造莫来石。混合粉末由Al-Si合金，Al_2O_3和SiO_2的粉末以及添加剂或Al-Si合金，Al_2O_3，SiO_2和ZrO_2的粉末和添加剂组成。为了防止Al-Si合金的氧化，将这些混合粉末在非水浆料中进行研磨。然后将生坯在≥1380℃的空气中进行无压烧结。氧化导致内部体积膨胀，从而降低了复合材料反应结合过程中的收缩应力，从而最大程度降低了对裂纹形成的敏感性。与非氧化锆增强莫来石复合材料相比，研究了莫来石复合材料的微观结构和力学性能的影响。

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《Key Engineering Materials》 |2008年第1期|p.815-817|共3页
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Shun Li; Jiachen Liu; Zhongqiu Li; Wei Fan; Pengyu Zhang;
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Microstructure and Mechanical Properties of Mullite Composites via Pressure Molding and by Oxidation of an Al-Si Alloy Powder

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