稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2011年
8期
1339-1343
,共5页
齐国红%房灿峰%白云%祁海%张兴国
齊國紅%房燦峰%白雲%祁海%張興國
제국홍%방찬봉%백운%기해%장흥국
TiB2/AZ31镁基复合材料%热挤压%硬度%抗拉强度%耐磨性
TiB2/AZ31鎂基複閤材料%熱擠壓%硬度%抗拉彊度%耐磨性
TiB2/AZ31미기복합재료%열제압%경도%항랍강도%내마성
TiB2/AZ31 magnesium based composite%hot extrusion%hardness%tensile strength%wear resistance
采用原位合成—半固态搅拌铸造法制备了TiB2/AZ31镁基复合材料,研究了热挤压对TiB2/AZ31镁基复合材料组织和力学性能的影响.结果表明:热挤压不仅能显著细化合金组织,而且能有效改善TiB2颗粒分布的均匀性.与铸态AZ31镁合金相比,铸态TiB2/AZ31镁基复合材料的硬度、抗拉强度都有一定程度的提高.经过热挤压后,TiB2/AZ31镁基复合材料的硬度和抗拉强度分别比基体合金提高了126.2%和98.8%,达到950 MPa和322 MPa.磨损表面形貌显示,TiB2颗粒的引入以及对TiB2/AZ31镁基复合材料进行热挤压,都可有效地提高材料的耐磨性.
採用原位閤成—半固態攪拌鑄造法製備瞭TiB2/AZ31鎂基複閤材料,研究瞭熱擠壓對TiB2/AZ31鎂基複閤材料組織和力學性能的影響.結果錶明:熱擠壓不僅能顯著細化閤金組織,而且能有效改善TiB2顆粒分佈的均勻性.與鑄態AZ31鎂閤金相比,鑄態TiB2/AZ31鎂基複閤材料的硬度、抗拉彊度都有一定程度的提高.經過熱擠壓後,TiB2/AZ31鎂基複閤材料的硬度和抗拉彊度分彆比基體閤金提高瞭126.2%和98.8%,達到950 MPa和322 MPa.磨損錶麵形貌顯示,TiB2顆粒的引入以及對TiB2/AZ31鎂基複閤材料進行熱擠壓,都可有效地提高材料的耐磨性.
채용원위합성—반고태교반주조법제비료TiB2/AZ31미기복합재료,연구료열제압대TiB2/AZ31미기복합재료조직화역학성능적영향.결과표명:열제압불부능현저세화합금조직,이차능유효개선TiB2과립분포적균균성.여주태AZ31미합금상비,주태TiB2/AZ31미기복합재료적경도、항랍강도도유일정정도적제고.경과열제압후,TiB2/AZ31미기복합재료적경도화항랍강도분별비기체합금제고료126.2%화98.8%,체도950 MPa화322 MPa.마손표면형모현시,TiB2과립적인입이급대TiB2/AZ31미기복합재료진행열제압,도가유효지제고재료적내마성.
The TiB2/AZ31 magnesium based composite was fabricated by the in-situ synthesis-semisolid stirring technique,and its microstructure and mechanical property were studied.The results show that hot extrusion not only significantly refines the microstructure of the alloy,but also effectively improves the uniformity of TiB2 particles distribution.Compared with as-cast AZ31 magnesium alloy,the hardness and tensile strength of as-cast TiB2/AZ31 magnesium based composites increase to some extent (unobvious),but the elongation decreases.However,after extrusion,the hardness and the tensile strength of the as-extruded TiB2/AZ31 magnesium based composite increase by 126.2% and 98.8%,reaching 950 MPa and 322 MPa,respectively,and the elongation is also higher.Adding of TiB2 particles to AZ31 alloy and hot extrusion are effective ways to improve the wear resistance of AZ31 magnesium alloy.