CAJ | 학술논문

目的研究不同氧化物添加剂对SiC-ZrC涂层C/C复合材料相组成、微观结构和抗氧化性能的影响。方法采用包埋法,分别以Al2 O3,B2 O3和MgO作为添加剂,制备SiC-ZrC涂层C/C复合材料,分析相组成及微观结构,考察复合材料在1000~1550℃静态空气气氛中的抗氧化性能。结果以Al2 O3作为包埋添加剂制得的涂层致密,而以MgO为添加剂制得的涂层较疏松。在1000~1550℃的静态空气气氛中,随着氧化温度的升高,以Al2 O3为添加剂制得的复合材料失重率逐渐减小,在1550℃氧化1 h后仅为1%；以B2 O3和MgO为添加剂制得的复合材料失重率逐渐增加,在1550℃氧化1 h后分别达到15%和36%。结论与B2 O3添加剂相比,Al2 O3和MgO添加剂更能促进包埋粉料的扩散。以Al2 O3作为包埋添加剂制得的SiC-ZrC涂层C/C复合材料具有较好的高温抗氧化性能。
목적연구불동양화물첨가제대SiC-ZrC도층C/C복합재료상조성、미관결구화항양화성능적영향。방법채용포매법,분별이Al2 O3,B2 O3화MgO작위첨가제,제비SiC-ZrC도층C/C복합재료,분석상조성급미관결구,고찰복합재료재1000~1550℃정태공기기분중적항양화성능。결과이Al2 O3작위포매첨가제제득적도층치밀,이이MgO위첨가제제득적도층교소송。재1000~1550℃적정태공기기분중,수착양화온도적승고,이Al2 O3위첨가제제득적복합재료실중솔축점감소,재1550℃양화1 h후부위1%；이B2 O3화MgO위첨가제제득적복합재료실중솔축점증가,재1550℃양화1 h후분별체도15%화36%。결론여B2 O3첨가제상비,Al2 O3화MgO첨가제경능촉진포매분료적확산。이Al2 O3작위포매첨가제제득적SiC-ZrC도층C/C복합재료구유교호적고온항양화성능。
ABSTRACT:Objective To investigate the effect of different oxide additives on the phase composition, microstructure and oxida-tion resistance of the SiC-ZrC coated C/C composites. Methods SiC-ZrC coated C/C composites were prepared by a pack cementa-tion technique with different oxides ( Al2 O3 , B2 O3 or MgO) as additives. The anti-oxidation property of the SiC-ZrC coated C/C composites was also studied in the temperature range between 1000 ℃ and 1550 ℃ in static air. Results The results showed that Al2 O3 and MgO additives exhibited better performance in enhancing the diffusion of the embedding powder materials than B2 O3 ad-ditive. The SiC-ZrC coating prepared with Al2 O3 as an additive was more compact than that prepared with MgO as an additive. The weight loss of the SiC-ZrC coated C/C composites prepared with Al2 O3 as an additive decreased gradually with the increasing oxida-tion temperature in the temperature range of 1000~1550 ℃, and the weight loss was about 1% after oxidation at 1550 ℃ for 1 h in air. However, the weight loss of the SiC-ZrC coated C/C composites prepared with B2 O3 or MgO as an additive increased with the increase of the oxidation temperature. After oxidation for 1 h, the weight loss of the composites prepared with B2 O3 and MgO as additives reached 15% and 36%, respectively. Conclusion The SiC-ZrC coated C/C composites prepared with Al2 O3 as an addi-tive had good oxidation resistance at high temperature.