2O3f/SiO2)和石英纖維增強二氧化硅復合材料(SiO2f/SiO2)兩種氧化物纖維增強陶瓷基復合材料。分別研究了其在室溫~1400 ℃溫度條件下的拉伸強度及壓縮強度,并采用電子顯微鏡(SEM)和X射線衍射(XRD)對復合材料的微觀形貌和晶相結(jié)構(gòu)進行了表征。結(jié)果表明,在室溫~1000 ℃條件下,氧化鋁纖維增強二氧化硅復合材料的力學性能遠高于石英纖維增強二氧化硅復合材料。而當溫度升高到1200 ℃及以上溫度時,復合材料力學性能急劇下降,基體中的二氧化硅顆粒與氧化鋁纖維之間發(fā)生強結(jié)合。當溫度進一步提升到1300~1400℃時生成了莫來石相和α-方石英相,界面消失導致的脆性斷裂是復合材料高溫失效的主要機理。"/>

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氧化物纖維增強陶瓷基復合材料高溫力學性能及微觀形貌研究
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1.航天特種材料及工藝技術(shù)研究所;2.北京空天技術(shù)研究所;3.山東東珩國纖新材料有限公司

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Study on the Mechanical Properties and microstructure of Oxide Fiber Reinforced Ceramic Matrix Composites at high Temperature
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1.Aerospace Institute of Advanced Materials Processing Technology,Beijing;2.Beijing Institute of Aerospace Technology;3.Shandong Dongheng Sinofibre New Material Co,Ltd,Dongying

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    本文研究了氧化物纖維增強陶瓷基復合材料在室溫~1400℃條件下,其力學性能和微觀結(jié)構(gòu)隨溫度的變化規(guī)律。分別以氧化鋁纖維和石英纖維作為增強體,采用溶膠-凝膠成型工藝制備出了氧化鋁纖維增強二氧化硅復合材料(Al2O3f/SiO2)和石英纖維增強二氧化硅復合材料(SiO2f/SiO2)兩種氧化物纖維增強陶瓷基復合材料。分別研究了其在室溫~1400 ℃溫度條件下的拉伸強度及壓縮強度,并采用電子顯微鏡(SEM)和X射線衍射(XRD)對復合材料的微觀形貌和晶相結(jié)構(gòu)進行了表征。結(jié)果表明,在室溫~1000 ℃條件下,氧化鋁纖維增強二氧化硅復合材料的力學性能遠高于石英纖維增強二氧化硅復合材料。而當溫度升高到1200 ℃及以上溫度時,復合材料力學性能急劇下降,基體中的二氧化硅顆粒與氧化鋁纖維之間發(fā)生強結(jié)合。當溫度進一步提升到1300~1400℃時生成了莫來石相和α-方石英相,界面消失導致的脆性斷裂是復合材料高溫失效的主要機理。

    Abstract:

    The present article focuses on the change of mechanical properties of oxide fiber reinforced ceramic matrix composites with temperature from room temperature (RT) to 1400 ℃. Alumina fiber reinforced silica composite (Al2O3f /SiO2) and quartz fiber reinforced silica composite (SiO2f/SiO2) were prepared by sol-gel process with alumina fiber and quartz fiber as reinforcement respectively. The tensile strength and compressive strength of the composites at room temperature ~1400 ℃ were investigated, and the microstructure and crystal phase structure of the composites were characterized by electron microscopy (SEM) and X-ray diffraction (XRD). The results show that the mechanical properties of alumina fiber reinforced SiO2 composites are much higher than those of quartz fiber reinforced SiO2 composites under RT~1000 ℃. However, while the temperature was raised to 1200, the mechanical properties decrease sharply, and strong bonding occurs between silica particles and fibers. As the temperature was further increased to 1300~1400 ℃, mullite and α-quartzite phases were formed. The mechanical properties of composites are sharply decreased due to brittle fracture under the action of stress. The brittle fracture caused by the disappearance of interfaces is the main mechanism of high temperature failure of composites.

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慈吉良,高文博,劉健,張劍,井良霄,于志剛.氧化物纖維增強陶瓷基復合材料高溫力學性能及微觀形貌研究[J].稀有金屬材料與工程,2024,53(11):3211~3216.[Ci Jiliang, Gao Wenbo, Liu Jian, Zhang Jian, Jing Liangxiao, Yu Zhigang. Study on the Mechanical Properties and microstructure of Oxide Fiber Reinforced Ceramic Matrix Composites at high Temperature[J]. Rare Metal Materials and Engineering,2024,53(11):3211~3216.]
DOI:10.12442/j. issn.1002-185X.20230577

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  • 收稿日期:2023-09-13
  • 最后修改日期:2023-09-23
  • 錄用日期:2023-10-07
  • 在線發(fā)布日期: 2024-11-20
  • 出版日期: 2024-11-08