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
913-915
,共3页
王明福%汪长安%尉磊%张幸红
王明福%汪長安%尉磊%張倖紅
왕명복%왕장안%위뢰%장행홍
ZrB_2%SiC晶片%复合陶瓷%力学性能
ZrB_2%SiC晶片%複閤陶瓷%力學性能
ZrB_2%SiC정편%복합도자%역학성능
ZrB_2%SiC platelet%composites%mechanical properties
研究了以氮化铝(AlN)为助烧剂的碳化硅晶片(SiC_(pl))增韧二硼化锆(ZrB_2)复合陶瓷材料的制备工艺,并测定其抗弯强度、断裂韧性、致密度和显微硬度.利用扫描电子显微镜(SEM)观察了样品的表面及断面形貌.复合陶瓷中SiC晶片的添加量分别为5%, 10%, 15%以及20%(体积分数, 下同),AlN作为烧结助剂添加量为3%.结果表明:适量SiC晶片的添加提高了SiC_(pl)/ZrB_2复合陶瓷的烧结致密度;SiC_(pl)/ZrB_2复合陶瓷的力学性能比纯ZrB_2陶瓷有所提高,抗弯强度和维氏硬度在5%SiC晶片添加量时达到最大,分别为(625.34±21.46) MPa和(14.60±0.84) GPa;断裂韧性在15%SiC晶片添加量时达到最大值(8.35 ± 0.26) MPa·m~(1/2).断口形貌观察表明主要增韧机制为裂纹偏转与晶片拔出.
研究瞭以氮化鋁(AlN)為助燒劑的碳化硅晶片(SiC_(pl))增韌二硼化鋯(ZrB_2)複閤陶瓷材料的製備工藝,併測定其抗彎彊度、斷裂韌性、緻密度和顯微硬度.利用掃描電子顯微鏡(SEM)觀察瞭樣品的錶麵及斷麵形貌.複閤陶瓷中SiC晶片的添加量分彆為5%, 10%, 15%以及20%(體積分數, 下同),AlN作為燒結助劑添加量為3%.結果錶明:適量SiC晶片的添加提高瞭SiC_(pl)/ZrB_2複閤陶瓷的燒結緻密度;SiC_(pl)/ZrB_2複閤陶瓷的力學性能比純ZrB_2陶瓷有所提高,抗彎彊度和維氏硬度在5%SiC晶片添加量時達到最大,分彆為(625.34±21.46) MPa和(14.60±0.84) GPa;斷裂韌性在15%SiC晶片添加量時達到最大值(8.35 ± 0.26) MPa·m~(1/2).斷口形貌觀察錶明主要增韌機製為裂紋偏轉與晶片拔齣.
연구료이담화려(AlN)위조소제적탄화규정편(SiC_(pl))증인이붕화고(ZrB_2)복합도자재료적제비공예,병측정기항만강도、단렬인성、치밀도화현미경도.이용소묘전자현미경(SEM)관찰료양품적표면급단면형모.복합도자중SiC정편적첨가량분별위5%, 10%, 15%이급20%(체적분수, 하동),AlN작위소결조제첨가량위3%.결과표명:괄량SiC정편적첨가제고료SiC_(pl)/ZrB_2복합도자적소결치밀도;SiC_(pl)/ZrB_2복합도자적역학성능비순ZrB_2도자유소제고,항만강도화유씨경도재5%SiC정편첨가량시체도최대,분별위(625.34±21.46) MPa화(14.60±0.84) GPa;단렬인성재15%SiC정편첨가량시체도최대치(8.35 ± 0.26) MPa·m~(1/2).단구형모관찰표명주요증인궤제위렬문편전여정편발출.
The preparation and mechanical properties of zirconium diboride matrix composites reinforced by silicon carbon platelets (SiC_(pl)/ZrB_2 composites) have been investigated using 3vol% AlN as sintering additive. Bending strength, fracture toughness, density and Vickers hardness were tested, respectively. Electron Scanning Microscope was used to observe the surface and the ruptured cross section. The additions of SiC platelets were 5 vol%, 10 vol%, 15 vol% and 20 vol%, respectively. The results showed that an adequate addition of SiC platelets could promote the sintering densification of the SiC_(pl)/ZrB_2 composites. The mechanical properties of the SiC_(pl)/ZrB_2 composites are higher than those of the monolithic ZrB_2 ceramic. Bending strength and Vickers hardness of the SiC_(pl)/ZrB_2 composites reached maximum values, (625.34±21.46) MPa and (14.60±0.84) GPa, respectively, at an addition of SiC platelets of 5 vol%, while fracture toughness of the SiC_(pl)/ZrB_2 composites reached a maximum value of (8.35 ± 0.26) MPa·m~(1/2) at an addition of SiC platelets of 15 vol%. According to the observation on fractograph of the SiC_(pl)/ZrB_2 composites, crack deflection and platelet pulling-out were thought as main toughening mechanisms.