Micro-structural and tensile strength analyses on the magnesium matrix composites reinforced with coated carbon fiber

Z. L. Pei; K. Li; J. Gong; N. L. Shi; E. Elangovan; C. Sun

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Micro-structural and tensile strength analyses on the magnesium matrix composites reinforced with coated carbon fiber

机译：包覆碳纤维增强镁基复合材料的微结构和拉伸强度分析

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Magnesium matrix composites reinforced with SiO₂ coated carbon fibers have been investigated, with an emphasis given on the relation between the material strength and interfacial microstructure. The composites were studied as a function of aluminium (Al) content that is varied between 0 and 9 wt%. The obtained results indicate that the reactivity at the C/Mg–Al interface of the composite can be controlled by varying the Al content. The low Al content in C/Mg–1Al has been completely dissolved in the matrix with no segregation even after solidification, leading to the best mechanical performance. If the Al content is increased to ≥3 wt% (composites such as C/AZ31 and C/AZ91), the SiO₂ coatings are fully depleted due to an extensive formation of carbides at the interface. The precipitates are further identified as Al₂MgC₂ phase that is similar to binary carbide Al₄C₃. SiO₂ coating on the fiber layer prior to fabrication of composite is found to be a promising way to suppress the carbide formation and enable the use of Mg–Al matrix with appropriate Al content.

机译：研究了用SiO _{2 涂层碳纤维增强的镁基复合材料，重点研究了材料强度与界面微观结构之间的关系。研究了该复合材料作为铝（Al）含量的函数，铝含量在0至9 wt％之间变化。获得的结果表明，可以通过改变Al的含量来控制复合材料C / Mg-Al界面的反应性。 C / Mg-1Al中低的Al含量已经完全溶解在基体中，即使在凝固后也不会偏析，从而获得最佳的机械性能。如果Al含量增加到≥3wt％（复合物，如C / AZ31和C / AZ91），则由于在界面处大量形成碳化物，SiO _{2 涂层被完全耗尽。沉淀物进一步鉴定为Al _{2 MgC _{2 相，类似于二元碳化物Al _{4 C _{3 。发现在复合材料制造之前在纤维层上涂覆SiO _{2 是抑制碳化物形成并允许使用具有适当Al含量的Mg-Al基体的有前途的方法。}}}}}}}

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《Journal of Materials Science》 |2009年第15期|p.4124-4131|共8页
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Z. L. Pei; K. Li; J. Gong; N. L. Shi; E. Elangovan; C. Sun;
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1. Micro-structural and tensile strength analyses on the magnesium matrix composites reinforced with coated carbon fiber [J] . Pei ZL, Li K, Gong J, Journal of Materials Science . 2009,第15期

机译：包覆碳纤维增强镁基复合材料的微结构和拉伸强度分析
2. Tensile Strength of Squeeze Cast Carbon Fibers Reinforced Al-Si Matrix Composites [J] . Ahmed A. Moosa, Kahtan K. Al-Khazraji, Osama S. Muhammed Journal of Minerals and Materials Characterization and Engineering . 2011,第2期

机译：挤压铸造碳纤维增强Al-Si基复合材料的拉伸强度
3. Tensile properties of coated carbon fiber reinforced magnesium composites [J] . Zhang Kun, Wang Yuqing, Zhou Benlian Transactions of Nonferrous Metals Society of China . 1997,第3期

机译：涂层碳纤维增强镁复合材料的拉伸性能
4. TENSILE STRENGTH OF EPOXY MATRIX COMPOSITES REINFORCED WITH GIANT BAMBOO FIBERS (DENDROCALMUS GIGANTEUS) [C] . Lucas Barbosa de Souza Martins, Frederico Muylaert Margem, Sergio Neves Monteiro, TMS annual meeting exhibition;Symposium on characterization of minerals, metals, and materials . 2013

机译：巨型竹纤维增强了环氧树脂基复合材料的拉伸强度
5. Squeeze casting of magnesium matrix composites reinforced with alumina short fibers. [D] . Zhang, Xin. 2004

机译：挤压铸造用氧化铝短纤维增强的镁基复合材料。
6. Effect of the Statistical Nature of Fiber Strength on the Predictability of Tensile Properties of Polymer Composites Reinforced with Bamboo Fibers: Comparison of Linear- and Power-Law Weibull Models [O] . Xue Li, Fang Wang 2016

机译：纤维强度统计性质对竹纤维增强的聚合物复合材料拉伸性能的可预测性的影响：线性和幂律威布尔模型的比较
7. Tensile Strength of Squeeze Cast Carbon Fibers Reinforced Al-Si Matrix Composites [O] . Ahmed A. Moosa, Kahtan K. Al-khazraji, Osama S. Muhammed, 2015

机译：挤压铸造碳纤维增强al-si基复合材料的拉伸强度

Micro-structural and tensile strength analyses on the magnesium matrix composites reinforced with coated carbon fiber

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