稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2010年
5期
762-766
,共5页
张盘新%朱明%王乐酉%李重河%翟启杰
張盤新%硃明%王樂酉%李重河%翟啟傑
장반신%주명%왕악유%리중하%적계걸
TiNi形状记忆合金%单晶%最大可恢复应变%记忆疲劳
TiNi形狀記憶閤金%單晶%最大可恢複應變%記憶疲勞
TiNi형상기억합금%단정%최대가회복응변%기억피로
NiTi shape memory alloy%single crystal%maximal recoverable strain%memory fatigue property
在自制的定向凝固炉中,用带引晶器的石墨模壳制备出Ti-50.0at%Ni单晶.利用光学显微镜(OM)、扫描电镜(SEM)及其配置的能谱(EDS)仪研究合金的铸态组织,通过X射线衍射(XRD)和极图分析确定单晶晶粒取向,利用自制模具对合金的记忆性能进行评价.结果表明:试样横截面与纵截面均呈枝状晶分布特征,枝晶生长方向与定向凝固方向基本一致,未出现晶界,单晶横截面法向与[111]取向夹角为15°.由于消除了晶界对马氏体相变的不利影响,同时[111]取向是TiNi合金能获得较大可恢复应变的择优取向,与普通铸造的TiNi多晶相比,材料的形状记忆最大可恢复应变和记忆疲劳性能都得到一定提高.
在自製的定嚮凝固爐中,用帶引晶器的石墨模殼製備齣Ti-50.0at%Ni單晶.利用光學顯微鏡(OM)、掃描電鏡(SEM)及其配置的能譜(EDS)儀研究閤金的鑄態組織,通過X射線衍射(XRD)和極圖分析確定單晶晶粒取嚮,利用自製模具對閤金的記憶性能進行評價.結果錶明:試樣橫截麵與縱截麵均呈枝狀晶分佈特徵,枝晶生長方嚮與定嚮凝固方嚮基本一緻,未齣現晶界,單晶橫截麵法嚮與[111]取嚮夾角為15°.由于消除瞭晶界對馬氏體相變的不利影響,同時[111]取嚮是TiNi閤金能穫得較大可恢複應變的擇優取嚮,與普通鑄造的TiNi多晶相比,材料的形狀記憶最大可恢複應變和記憶疲勞性能都得到一定提高.
재자제적정향응고로중,용대인정기적석묵모각제비출Ti-50.0at%Ni단정.이용광학현미경(OM)、소묘전경(SEM)급기배치적능보(EDS)의연구합금적주태조직,통과X사선연사(XRD)화겁도분석학정단정정립취향,이용자제모구대합금적기억성능진행평개.결과표명:시양횡절면여종절면균정지상정분포특정,지정생장방향여정향응고방향기본일치,미출현정계,단정횡절면법향여[111]취향협각위15°.유우소제료정계대마씨체상변적불리영향,동시[111]취향시TiNi합금능획득교대가회복응변적택우취향,여보통주조적TiNi다정상비,재료적형상기억최대가회복응변화기억피로성능도득도일정제고.
Single crystals of NiTi (with 50.0at% Ni) were prepared in a self-designed unidirectional solidification furnace with a graphite mold shell connected with a crystal selector. Both macrostructure and microstructure of the alloy were observed by OM and SEM with EDS, the grain orientation of single crystal was determined by XRD and pole figures, and shape memory effect was evaluated by an instrument developed by ourselves. The results show that dendritic features were presented in both cross section and longitudinal section; the direction of dendrites growth were close to solidified direction; there was no obvious grain boundary observed; the angle between normal direction of cross section and [111] orientation was 15°. Compared with normal NiTi polycrystals, the maximal recoverable strain and memory fatigue property of the alloy were improved because the bad effect of grain boundary on the martensite phase transformation was eliminated, and also [111] orientation was a preferred orientation of NiTi alloy which can provide larger recoverable strain.