特种铸造及有色合金
特種鑄造及有色閤金
특충주조급유색합금
SPECIAL CASTING & NONFERROUS ALLOYS
2010年
3期
270-272
,共3页
合金元素%β-钛合金%杨氏模量%磨损性能
閤金元素%β-鈦閤金%楊氏模量%磨損性能
합금원소%β-태합금%양씨모량%마손성능
Alloying Element%Beta Ti Alloy%Young′s Modulus%Wearing Resistance
采用金相显微镜、X射线衍射仪(XRD)、数字式显微硬度计、磨损试验机、扫描电镜(SEM),研究了Mn、Zr元素对β钛合金TMA(Ti-11.5Mo-6Zr-4.5Sn)组织、力学性能和耐磨性能的影响.结果表明,Mn替代部分Mo元素没有改变合金的β相结构,但合金在淬火后出现了少量的α~″相;Zr含量增加使合金铸态相结构中产生ω相,但在淬火后为β相;Mn元素的加入和Zr含量的增加提高了合金的硬度,降低了合金杨氏模量;合金磨损机理是磨粒磨损和粘着磨损共同作用,Mn替代部分Mo和Zr含量的增加提高了合金的磨粒磨损性能,降低了合金的粘着磨损性能.
採用金相顯微鏡、X射線衍射儀(XRD)、數字式顯微硬度計、磨損試驗機、掃描電鏡(SEM),研究瞭Mn、Zr元素對β鈦閤金TMA(Ti-11.5Mo-6Zr-4.5Sn)組織、力學性能和耐磨性能的影響.結果錶明,Mn替代部分Mo元素沒有改變閤金的β相結構,但閤金在淬火後齣現瞭少量的α~″相;Zr含量增加使閤金鑄態相結構中產生ω相,但在淬火後為β相;Mn元素的加入和Zr含量的增加提高瞭閤金的硬度,降低瞭閤金楊氏模量;閤金磨損機理是磨粒磨損和粘著磨損共同作用,Mn替代部分Mo和Zr含量的增加提高瞭閤金的磨粒磨損性能,降低瞭閤金的粘著磨損性能.
채용금상현미경、X사선연사의(XRD)、수자식현미경도계、마손시험궤、소묘전경(SEM),연구료Mn、Zr원소대β태합금TMA(Ti-11.5Mo-6Zr-4.5Sn)조직、역학성능화내마성능적영향.결과표명,Mn체대부분Mo원소몰유개변합금적β상결구,단합금재쉬화후출현료소량적α~″상;Zr함량증가사합금주태상결구중산생ω상,단재쉬화후위β상;Mn원소적가입화Zr함량적증가제고료합금적경도,강저료합금양씨모량;합금마손궤리시마립마손화점착마손공동작용,Mn체대부분Mo화Zr함량적증가제고료합금적마립마손성능,강저료합금적점착마손성능.
Effects of the Mn and Zr elements on microstructure, mechanical properties and wearing resistance of Ti based TMA alloy (Ti-11.3Mo-6Zr-4.3Sn) for orthodontics were investigated by optical microscope (OM), XRD(X-ray diffraction), digital micro-hardness tester, abrasive testing machine, SEM (scanning electron microscope). The results reveal that substitution of element Mn for Mo can not change phase constituent in TMA alloy, however, a little of α'' phase can be observed after quenching treatment. ω phase can be created in as-cast microstructure of the TMA alloy with increasing in Zr content, which is transformed into β phase after quenching. Hardness of the TMA alloy is increased and elastic modulus is decreased, and wearing mechanism of the TMA alloy is characterized by abrasive wear and coherent wear, and abrasive wear behavior is improved and coherent wear is deteriorated with substitution of Mn for Mo and the increase of Zr content.
