电镀与涂饰
電鍍與塗飾
전도여도식
ELECTROPLATING & FINISHING
2014年
7期
291-295
,共5页
徐阳阳%薛玉君%李济顺%刘春阳%杨芳
徐暘暘%薛玉君%李濟順%劉春暘%楊芳
서양양%설옥군%리제순%류춘양%양방
镍%氧化锆%氧化铈%纳米复合镀层%脉冲电沉积%超声波%耐蚀性
鎳%氧化鋯%氧化鈰%納米複閤鍍層%脈遲電沉積%超聲波%耐蝕性
얼%양화고%양화시%납미복합도층%맥충전침적%초성파%내식성
nickel%zirconia%ceria%nanocomposite coating%pulsed electrodeposition%ultrasound%corrosion resistance
在超声场中采用脉冲沉积法制备了Ni-ZrO2-CeO2二元纳米复合镀层。镀液组成和基础工艺条件为:氨基磺酸镍300 g/L, H3BO330 g/L,NH4Cl 5 g/L,润湿剂0.15 g/L,ZrO220 g/L,CeO235 g/L,温度(45±2)°C,pH 3.8±0.1,时间2 h。研究了平均电流密度、占空比和脉冲频率等对Ni-ZrO2-CeO2复合镀层中纳米颗粒含量的影响。采用静态浸泡法研究了不同脉冲参数下制备的纳米复合镀层在10%H2SO4溶液中的耐腐蚀性。结果表明,在平均电流密度4 A/dm2、占空比0.4、频率1000 Hz条件下脉冲电沉积时,Ni-ZrO2-CeO2复合镀层中纳米颗粒的含量最高,表面最细致。超声波的引入使复合镀层中纳米颗粒的含量有少许降低,但能细化晶粒,提高复合镀层的耐腐蚀性能。Ni-ZrO2-CeO2复合镀层的耐腐蚀性优于相同工艺条件下制备的纯Ni、Ni-ZrO2以及Ni-CeO2镀层。
在超聲場中採用脈遲沉積法製備瞭Ni-ZrO2-CeO2二元納米複閤鍍層。鍍液組成和基礎工藝條件為:氨基磺痠鎳300 g/L, H3BO330 g/L,NH4Cl 5 g/L,潤濕劑0.15 g/L,ZrO220 g/L,CeO235 g/L,溫度(45±2)°C,pH 3.8±0.1,時間2 h。研究瞭平均電流密度、佔空比和脈遲頻率等對Ni-ZrO2-CeO2複閤鍍層中納米顆粒含量的影響。採用靜態浸泡法研究瞭不同脈遲參數下製備的納米複閤鍍層在10%H2SO4溶液中的耐腐蝕性。結果錶明,在平均電流密度4 A/dm2、佔空比0.4、頻率1000 Hz條件下脈遲電沉積時,Ni-ZrO2-CeO2複閤鍍層中納米顆粒的含量最高,錶麵最細緻。超聲波的引入使複閤鍍層中納米顆粒的含量有少許降低,但能細化晶粒,提高複閤鍍層的耐腐蝕性能。Ni-ZrO2-CeO2複閤鍍層的耐腐蝕性優于相同工藝條件下製備的純Ni、Ni-ZrO2以及Ni-CeO2鍍層。
재초성장중채용맥충침적법제비료Ni-ZrO2-CeO2이원납미복합도층。도액조성화기출공예조건위:안기광산얼300 g/L, H3BO330 g/L,NH4Cl 5 g/L,윤습제0.15 g/L,ZrO220 g/L,CeO235 g/L,온도(45±2)°C,pH 3.8±0.1,시간2 h。연구료평균전류밀도、점공비화맥충빈솔등대Ni-ZrO2-CeO2복합도층중납미과립함량적영향。채용정태침포법연구료불동맥충삼수하제비적납미복합도층재10%H2SO4용액중적내부식성。결과표명,재평균전류밀도4 A/dm2、점공비0.4、빈솔1000 Hz조건하맥충전침적시,Ni-ZrO2-CeO2복합도층중납미과립적함량최고,표면최세치。초성파적인입사복합도층중납미과립적함량유소허강저,단능세화정립,제고복합도층적내부식성능。Ni-ZrO2-CeO2복합도층적내부식성우우상동공예조건하제비적순Ni、Ni-ZrO2이급Ni-CeO2도층。
A Ni-ZrO2-CeO2 binary nanocomposite coating was prepared by pulsed electrodeposition under ultrasonic condition from the bath containing nickel sulfamate 300 g/L, H3BO3 30 g/L, NH4Cl 5 g/L, wetting agent 0.15 g/L, ZrO2 20 g/L, and CeO2 35 g/L at temperature (45 ± 2) °C and pH 3.8±0.1 for 2 h. The effects of average current density, duty cycle, and pulse frequency on the nanoparticle content of Ni-ZrO2-CeO2 composite coating were studied. The corrosion resistance of the nanocomposite coatings prepared under different pulse parameters in 10%H2SO4 solution was tested by static immersion method. The results showed that the Ni-ZrO2-CeO2 composite coating obtained at average current density4 A/dm2, duty cycle 0.4, and pulse frequency 1 000 Hz has highest nanoparticle content and the most compact surface. The introduction of ultrasound reduces the nanoparticle content of Ni-ZrO2-CeO2 composite coating slightly, but refines the grains and improves the corrosion resistance of the composite coating. Ni-ZrO2-CeO2 composite coating has better corrosion resistance than pure Ni, Ni-ZrO2, and Ni-CeO2 coatings prepared under the same process conditions.