首页|期刊导航|无机材料学报|晶粒尺寸对常压固相烧结SiC陶瓷断裂强度Weibull分布的影响

晶粒尺寸对常压固相烧结SiC陶瓷断裂强度Weibull分布的影响OA

Influence of Grain Size on Weibull Distribution of Fracture Strength in Atmospheric-pressure Solid-phase Sintered SiC Ceramics

中文摘要英文摘要

碳化硅(SiC)陶瓷因其优异的力学性能以及抗高温蠕变、耐酸碱腐蚀、高热导率等优良性能在半导体、核能、航空航天、海洋等领域得到广泛应用.然而,脆性陶瓷材料的断裂强度通常表现出显著的离散性,导致可靠性降低,限制了其在工程结构中的应用.本研究通过调节晶粒尺寸,提升了常压固相烧结碳化硅(SSiC)陶瓷的断裂强度可靠性.系统研究了晶粒尺寸对 SSiC 陶瓷力学性能、断裂强度 Weibull分布以及裂纹扩展阻力曲线(R曲线)特征的影响,深入分析了 SSiC 陶瓷断裂强度可靠性的调控机理.结果表明:随着烧结温度从 2100℃升高至 2200℃,SSiC陶瓷平均晶粒尺寸从 3.01 µm增大至 8.45 µm,晶粒尺寸分布均匀性系数从 0.70 减小至 0.62;同时,随着平均晶粒尺寸从 8.45 µm减小至 3.01 µm,SSiC陶瓷断裂强度Weibull模数从 8.5 逐渐增大至 12.2,增幅达到 44%,表明晶粒细化对提高断裂强度可靠性具有积极作用.其主要原因在于高密度晶界网络通过裂纹分叉与桥接效应分散应力集中,同时均匀的晶粒分布和较小的缺陷尺寸提升了裂纹扩展的能量阈值,从而表现出上升的R曲线行为.本研究通过调控晶粒尺寸明显改善了SiC陶瓷的断裂强度可靠性,有望推动SiC陶瓷材料更广泛的工程化应用.

Silicon carbide(SiC)ceramics have found extensive application in strategic fields,such as semiconductor technology,nuclear energy,aerospace engineering,and marine engineering,due to their remarkable properties,which encompass excellent mechanical properties,resistance to high-temperature creep,acid and alkali corrosion,and high thermal conductivity.However,the fracture strength of these brittle ceramic materials typically exhibits significant discreteness,which adversely affects reliability and limits their wider application as engineering structural materials.In this work,reliability of fracture strength in solid-state sintered silicon carbide(SSiC)ceramics was enhanced through regulation of grain size.The influence of grain size on mechanical properties,Weibull distribution of fracture strength,and crack extension resistance curve(R-curve)characteristics of SSiC ceramics was systematically evaluated.Reliability regulatory mechanism for fracture strength of SSiC ceramics was analyzed.The results indicated that,with an increase in sintering temperature from 2100℃to 2200℃,average grain size of SSiC ceramics increased from 3.01 µm to 8.45 µm,while coefficient of grain size distribution uniformity dropped from 0.70 to 0.62.As the average grain size was reduced from 8.45 µm to 3.01 µm,Weibull modulus of fracture strength for SSiC ceramics increased gradually from 8.5 to 12.2,representing a 44%increment.This clearly indicates the positive impact of grain refinement on reliability of fracture strength.Enhancement in Weibull modulus of fracture strength as a result of grain refinement can primarily be attributed to high-density grain boundary network,which effectively mitigates stress concentration via crack bifurcation and bridging mechanisms.Additionally,uniformity of grain distribution and reduced defect size contribute to an elevated energy threshold for crack propagation,leading to an ascending R-curve behavior.This work achieves a significant improvement in the fracture strength reliability of SiC ceramics through regulating grain size,which is expected to promote the wider engineering application of SiC ceramic materials.

曹娟;吴西士;刘泽华;裴兵兵;韩建燊;刘欢;杨亦天;吴海波;黄政仁

中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波大学 材料科学与化学工程学院,宁波 315211中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波杭州湾新材料研究院,宁波 315336中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波杭州湾新材料研究院,宁波 315336中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波杭州湾新材料研究院,宁波 315336中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波杭州湾新材料研究院,宁波 315336中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波杭州湾新材料研究院,宁波 315336中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波杭州湾新材料研究院,宁波 315336中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波杭州湾新材料研究院,宁波 315336中国科学院 宁波材料技术与工程研究所,海洋关键材料全国重点实验室,宁波 315201||宁波杭州湾新材料研究院,宁波 315336

化学化工

碳化硅陶瓷晶粒尺寸可靠性Weibull模数缺陷控制

silicon carbide ceramicgrain sizereliabilityWeibull modulusdefect control

《无机材料学报》 2026 (2)

217-224,8

国家重点研发计划(2022YFB3706200)国家自然科学基金(U23A20563)National Key R&D Program of China(2022YFB3706200)National Natural Science Foundation of China(U23A20563)

10.15541/jim20250209

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