功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
7期
919-923
,共5页
易敬华%林修洲%蔡振兵%沈明学%何莉萍%朱旻昊
易敬華%林脩洲%蔡振兵%瀋明學%何莉萍%硃旻昊
역경화%림수주%채진병%침명학%하리평%주민호
摩擦磨损%微动腐蚀%微动磨损%扭动微动%电化学腐蚀
摩抆磨損%微動腐蝕%微動磨損%扭動微動%電化學腐蝕
마찰마손%미동부식%미동마손%뉴동미동%전화학부식
friction and wear%fretting corrosion%fretting wear%torsional fretting%ele ctrochemical corrosion
在新型恒温扭动微动腐蚀实验装置上,通过改变角位移幅值,在恒温37℃的25%血清溶液中对Ti6Al4V合金的扭动微动腐蚀行为进行了研究。实验结果表明,角位移幅值对扭动微动的运行区域及腐蚀行为有重要的影响,摩擦扭矩-角位移幅值(T-θ)曲线分别呈直线型、椭圆型和平行四边形型,Ti6Al4V合金的扭动微动运行区分别呈现部分滑移区、混合区及滑移区等3个微动运行区。当角位移幅值较小时,扭动磨损发生在接触边缘,损伤轻微;扭动微动对腐蚀几乎不产生影响,腐蚀电流和腐蚀电位随时间的曲线波动不大;随着角位移幅值的增大,接触表面产生强烈的塑性变形,损伤严重。腐蚀电流和腐蚀电位随时间的变化曲线表明,扭动微动对腐蚀的影响较大,呈磨损加速腐蚀的特征。
在新型恆溫扭動微動腐蝕實驗裝置上,通過改變角位移幅值,在恆溫37℃的25%血清溶液中對Ti6Al4V閤金的扭動微動腐蝕行為進行瞭研究。實驗結果錶明,角位移幅值對扭動微動的運行區域及腐蝕行為有重要的影響,摩抆扭矩-角位移幅值(T-θ)麯線分彆呈直線型、橢圓型和平行四邊形型,Ti6Al4V閤金的扭動微動運行區分彆呈現部分滑移區、混閤區及滑移區等3箇微動運行區。噹角位移幅值較小時,扭動磨損髮生在接觸邊緣,損傷輕微;扭動微動對腐蝕幾乎不產生影響,腐蝕電流和腐蝕電位隨時間的麯線波動不大;隨著角位移幅值的增大,接觸錶麵產生彊烈的塑性變形,損傷嚴重。腐蝕電流和腐蝕電位隨時間的變化麯線錶明,扭動微動對腐蝕的影響較大,呈磨損加速腐蝕的特徵。
재신형항온뉴동미동부식실험장치상,통과개변각위이폭치,재항온37℃적25%혈청용액중대Ti6Al4V합금적뉴동미동부식행위진행료연구。실험결과표명,각위이폭치대뉴동미동적운행구역급부식행위유중요적영향,마찰뉴구-각위이폭치(T-θ)곡선분별정직선형、타원형화평행사변형형,Ti6Al4V합금적뉴동미동운행구분별정현부분활이구、혼합구급활이구등3개미동운행구。당각위이폭치교소시,뉴동마손발생재접촉변연,손상경미;뉴동미동대부식궤호불산생영향,부식전류화부식전위수시간적곡선파동불대;수착각위이폭치적증대,접촉표면산생강렬적소성변형,손상엄중。부식전류화부식전위수시간적변화곡선표명,뉴동미동대부식적영향교대,정마손가속부식적특정。
By changing the angle displacement amplitude,torsional fretting corrosion behaviors of Ti6Al4V alloy were studied in 25% serum solution of 37℃ in the new torsional fretting corrosion test device at constant temperature.The results showed that the angle displacement amplitude had an important effect on corrosion behaviors and running regimes of torsional fretting.The friction torque-angular displacement amplitude(T-θ) curves showed linear,elliptical and parallelogram type.Torsional fretting running regimes of Ti6Al4V alloy presented partal slip regime,mixed regime and slip regime.When the angle displacement amplitude was small,the torsional wear occurred at the edge of contact area and the damage was slight;torsional fretting had almost no influence on corrosion and the fluctuation of corrosion current and corrosion potential versus time curve was small.With the angle displacement amplitude increased,a strong plastic deformation occurred in the contact surface and the damage was severe.Corrosion current and corrosion potential versus time curves showed that the torsional fretting influenced corrosion strongly and wear accelerated corrosion.