兵器材料科学与工程
兵器材料科學與工程
병기재료과학여공정
Ordnance Material Science and Engineering
2013年
6期
75-78
,共4页
胡文全%田秀丽%王峰%王璐%任鑫
鬍文全%田秀麗%王峰%王璐%任鑫
호문전%전수려%왕봉%왕로%임흠
化学复合镀%Ni-P-Ti3AlC2%镀速%络合剂%表面活性剂
化學複閤鍍%Ni-P-Ti3AlC2%鍍速%絡閤劑%錶麵活性劑
화학복합도%Ni-P-Ti3AlC2%도속%락합제%표면활성제
electroless composite plating%Ni-P-Ti3AlC2%deposition rate%complexing agent%surfactant
为获得Ni-P-Ti3AlC2最佳施镀工艺,采用正交试验法对影响镀速的主要因素络合剂、表面活性剂、Ti3AlC2、pH值进行了研究和优化,对最佳工艺下的镀层进行了形貌、物相、显微硬度和耐磨性分析。结果表明:当质量浓度为15 g/L柠檬酸钠、10 g/L Ti3AlC2、1.5 g/L十二烷基硫酸钠、pH值为5.0时,镀速达到33.256μm/h,镀层表面光滑平整,镀速和镀层质量达到最佳;Ti3AlC2颗粒成功复合到Ni-P镀层中,复合镀层显微硬度和耐磨性分别是二元镀层的1.77和2.27倍。
為穫得Ni-P-Ti3AlC2最佳施鍍工藝,採用正交試驗法對影響鍍速的主要因素絡閤劑、錶麵活性劑、Ti3AlC2、pH值進行瞭研究和優化,對最佳工藝下的鍍層進行瞭形貌、物相、顯微硬度和耐磨性分析。結果錶明:噹質量濃度為15 g/L檸檬痠鈉、10 g/L Ti3AlC2、1.5 g/L十二烷基硫痠鈉、pH值為5.0時,鍍速達到33.256μm/h,鍍層錶麵光滑平整,鍍速和鍍層質量達到最佳;Ti3AlC2顆粒成功複閤到Ni-P鍍層中,複閤鍍層顯微硬度和耐磨性分彆是二元鍍層的1.77和2.27倍。
위획득Ni-P-Ti3AlC2최가시도공예,채용정교시험법대영향도속적주요인소락합제、표면활성제、Ti3AlC2、pH치진행료연구화우화,대최가공예하적도층진행료형모、물상、현미경도화내마성분석。결과표명:당질량농도위15 g/L저몽산납、10 g/L Ti3AlC2、1.5 g/L십이완기류산납、pH치위5.0시,도속체도33.256μm/h,도층표면광활평정,도속화도층질량체도최가;Ti3AlC2과립성공복합도Ni-P도층중,복합도층현미경도화내마성분별시이원도층적1.77화2.27배。
In order to obtain the best technology of Ni-P-Ti3AlC2 electroless composite plating,main factors affecting the deposition rate,such as complexing agent,surfactant,Ni-P-Ti3AlC2 pH value,were studied through the orthogonal experiment. The surface morphology,phase,hardness and wear resistance of the plating obtained at the optimum condition are analyzed. The results show that the optimal operation conditions are as follows:15 g/L C6H5Na3O7.2H2O,10 g/L Ti3AlC2,1.5 g/L NaC12H25SO4, pH=5,with which the deposition rate reaches 33.256 μm/h and the plating surface is flat and smooth,indicating that the deposition rate and plating quality reach the optimum. The Ti3AlC2 particles are successfully deposited on the Ni-P coating. The microhardness and wear resistance are 1.77 and 2.27 times higher than those of the Ni-P plating,respectively.