红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
9期
2889-2895
,共7页
李靖%李军%何卫锋%李玉琴%聂祥樊%何光宇
李靖%李軍%何衛鋒%李玉琴%聶祥樊%何光宇
리정%리군%하위봉%리옥금%섭상번%하광우
TC17钛合金%激光冲击强化%纳米晶%残余应力%显微硬度
TC17鈦閤金%激光遲擊彊化%納米晶%殘餘應力%顯微硬度
TC17태합금%격광충격강화%납미정%잔여응력%현미경도
TC17 titanium alloy%laser shock peening%nanocrystal%residual stress%microhardness
对TC17钛合金激光冲击强化前后的微观组织和力学性能作了对比研究,将TC17钛合金进行同一功率密度下不同次数的激光冲击,分别利用扫描电子显微镜、透射电子显微镜、X射线衍射仪、残余应力测试仪和显微硬度计对激光冲击前后TC17钛合金的微观组织、残余应力和显微硬度进行了观察和测试。试验结果表明:TC17钛合金在不同次数激光冲击后,表面形成了剧烈塑性变形和高密度位错,晶粒细化明显,3次激光冲击后有纳米晶形成;残余应力和显微硬度都随着冲击次数的增加数值增大,且沿深度方向的变化规律基本相同;与未冲击试样相比,5次冲击后试样表面显微硬度提高了20.7%,沿深度方向300μm范围内影响明显,表面残余应力达到-644.3 MPa,残余压应力影响层深度增加至1.9 mm。
對TC17鈦閤金激光遲擊彊化前後的微觀組織和力學性能作瞭對比研究,將TC17鈦閤金進行同一功率密度下不同次數的激光遲擊,分彆利用掃描電子顯微鏡、透射電子顯微鏡、X射線衍射儀、殘餘應力測試儀和顯微硬度計對激光遲擊前後TC17鈦閤金的微觀組織、殘餘應力和顯微硬度進行瞭觀察和測試。試驗結果錶明:TC17鈦閤金在不同次數激光遲擊後,錶麵形成瞭劇烈塑性變形和高密度位錯,晶粒細化明顯,3次激光遲擊後有納米晶形成;殘餘應力和顯微硬度都隨著遲擊次數的增加數值增大,且沿深度方嚮的變化規律基本相同;與未遲擊試樣相比,5次遲擊後試樣錶麵顯微硬度提高瞭20.7%,沿深度方嚮300μm範圍內影響明顯,錶麵殘餘應力達到-644.3 MPa,殘餘壓應力影響層深度增加至1.9 mm。
대TC17태합금격광충격강화전후적미관조직화역학성능작료대비연구,장TC17태합금진행동일공솔밀도하불동차수적격광충격,분별이용소묘전자현미경、투사전자현미경、X사선연사의、잔여응력측시의화현미경도계대격광충격전후TC17태합금적미관조직、잔여응력화현미경도진행료관찰화측시。시험결과표명:TC17태합금재불동차수격광충격후,표면형성료극렬소성변형화고밀도위착,정립세화명현,3차격광충격후유납미정형성;잔여응력화현미경도도수착충격차수적증가수치증대,차연심도방향적변화규률기본상동;여미충격시양상비,5차충격후시양표면현미경도제고료20.7%,연심도방향300μm범위내영향명현,표면잔여응력체도-644.3 MPa,잔여압응력영향층심도증가지1.9 mm。
The microstructure and mechanical properties of TC17 titanium alloy with and without laser shock peening (LSP) were examined and compared. The titanium alloy samples were laser shock peened with different impacts at the same power density. Microstructure, microhardness and residual stress of TC17 titanium alloy introduced by LSP with different impacts were discussed by scanning electron microscopy(SEM), transmission electron microscope(TEM), X-ray diffraction(XRD), residual stress tester and sclerometer. The results indicate that a great deal of high-density dislocations and grain refinement are generated in the material surface layer. After 3 impacts LSP, there are nanocrystals in the LSP zone. The microhardness and residual stress value increase with greater impacts, and the variational trend with the depth is the same. Compared with the unsettled samples, the microhardness of TC17 titanium alloy treated by 5 impacts LSP has been increased by 20.7%at the surface, with a 300 μm depth affected layer. A high compressive residual stress about 644.3 MPa is introduced with an increasing plastically affected layer by 5 impacts, and the affected depth increases to 1.9 mm.
