稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
916-919
,共4页
张辉%闫永杰%黄政仁%刘学建
張輝%閆永傑%黃政仁%劉學建
장휘%염영걸%황정인%류학건
ZrB_2-SiC%常压烧结%力学性能%显微结构
ZrB_2-SiC%常壓燒結%力學性能%顯微結構
ZrB_2-SiC%상압소결%역학성능%현미결구
ZrB_2-SiC%pressureless sintering%mechanical properties%microstructure
以溶胶凝胶法合成的亚微米级和市售微米级ZrB_2粉体为原料,B4C和Mo为烧结助剂,在氩气气氛下,常压烧结制得ZrB_2-SiC复相超高温陶瓷材料.研究结果表明,亚微米级ZrB_2超细粉体的加入对ZrB_2-SiC复相陶瓷的常压烧结致密化有一定的促进作用,但对材料性能的影响不太明显.当超细粉体占到粉体质量的30%时,材料的相对密度约为97%.复相材料的三点抗弯强度为(327±56) MPa,弹性模量为(365±30) GPa,维氏硬度和断裂韧性分别为(12.30±0.75) GPa和(3.39±0.35) MPa·m~(1/2).另外,从材料的SEM照片明显看出,在压痕棱角尖端出现裂纹分叉现象,同时在裂纹延伸过程中发生偏转,断裂模式多为穿晶断裂,较少为沿晶断裂.
以溶膠凝膠法閤成的亞微米級和市售微米級ZrB_2粉體為原料,B4C和Mo為燒結助劑,在氬氣氣氛下,常壓燒結製得ZrB_2-SiC複相超高溫陶瓷材料.研究結果錶明,亞微米級ZrB_2超細粉體的加入對ZrB_2-SiC複相陶瓷的常壓燒結緻密化有一定的促進作用,但對材料性能的影響不太明顯.噹超細粉體佔到粉體質量的30%時,材料的相對密度約為97%.複相材料的三點抗彎彊度為(327±56) MPa,彈性模量為(365±30) GPa,維氏硬度和斷裂韌性分彆為(12.30±0.75) GPa和(3.39±0.35) MPa·m~(1/2).另外,從材料的SEM照片明顯看齣,在壓痕稜角尖耑齣現裂紋分扠現象,同時在裂紋延伸過程中髮生偏轉,斷裂模式多為穿晶斷裂,較少為沿晶斷裂.
이용효응효법합성적아미미급화시수미미급ZrB_2분체위원료,B4C화Mo위소결조제,재아기기분하,상압소결제득ZrB_2-SiC복상초고온도자재료.연구결과표명,아미미급ZrB_2초세분체적가입대ZrB_2-SiC복상도자적상압소결치밀화유일정적촉진작용,단대재료성능적영향불태명현.당초세분체점도분체질량적30%시,재료적상대밀도약위97%.복상재료적삼점항만강도위(327±56) MPa,탄성모량위(365±30) GPa,유씨경도화단렬인성분별위(12.30±0.75) GPa화(3.39±0.35) MPa·m~(1/2).령외,종재료적SEM조편명현간출,재압흔릉각첨단출현렬문분차현상,동시재렬문연신과정중발생편전,단렬모식다위천정단렬,교소위연정단렬.
Commercially available and sol-gel synthesized ZrB_2 ultra-fine ceramic powders were used as the raw materials. Nearly full density ZrB_2-SiC ceramic composites were pressurelessly sintered with B_4C and Mo as the sintering aids under flowing argon. The results show that the sub-micron synthesized ZrB_2 powders could apparently enhance the sintering process, though the properties of the composites were not obviously improved. The mechanical properties were the best as the synthesized powder was 30wt% of the total ceramic powders and the relative density was ~97%. The three-point flexure strength was (327±56) MPa and the elastic modulus was (365±30) GPa. The Vickers hardness and the fracture toughness were (12.30±0.75) GPa and (3.39±0.35) MPa·m~(1/2), respectively. The fracture propagation mode was mainly intragranular and the composite had a low residual porosity.
