材料保护
材料保護
재료보호
MATERIALS PROTECTION
2010年
1期
71-73
,共3页
电刷镀%镍钨合金镀层%快速镍镀层%抗高温软化%硬度
電刷鍍%鎳鎢閤金鍍層%快速鎳鍍層%抗高溫軟化%硬度
전쇄도%얼오합금도층%쾌속얼도층%항고온연화%경도
brush electroplating%Ni-W alloy coating%high speed nickel coating%resistance to softening at elevated temperature%hardness
传统的快速刷镀镍层已不能满足工件高温服役的需要,为此,在镀镍液中加入钨酸钠制备了具有较强抗高温软化能力的镍钨合金镀层,对快速镍镀层和镍钨合金镀层进行加热保温,对比研究了温度对2种镀层表面形貌、硬度的影响.结果表明:在室温下两者都具有较高的硬度,达550 HV左右;当加热到100℃时硬度达到最高值,约为600 HV;600℃时,快速镍镀层的硬度只有180 HV,而镍钨镀层的硬度仍可达到380 HV左右.快速镍液中加入钨酸钠等制备的镍钨合金镀层具有较强的抗高温软化能力.
傳統的快速刷鍍鎳層已不能滿足工件高溫服役的需要,為此,在鍍鎳液中加入鎢痠鈉製備瞭具有較彊抗高溫軟化能力的鎳鎢閤金鍍層,對快速鎳鍍層和鎳鎢閤金鍍層進行加熱保溫,對比研究瞭溫度對2種鍍層錶麵形貌、硬度的影響.結果錶明:在室溫下兩者都具有較高的硬度,達550 HV左右;噹加熱到100℃時硬度達到最高值,約為600 HV;600℃時,快速鎳鍍層的硬度隻有180 HV,而鎳鎢鍍層的硬度仍可達到380 HV左右.快速鎳液中加入鎢痠鈉等製備的鎳鎢閤金鍍層具有較彊的抗高溫軟化能力.
전통적쾌속쇄도얼층이불능만족공건고온복역적수요,위차,재도얼액중가입오산납제비료구유교강항고온연화능력적얼오합금도층,대쾌속얼도층화얼오합금도층진행가열보온,대비연구료온도대2충도층표면형모、경도적영향.결과표명:재실온하량자도구유교고적경도,체550 HV좌우;당가열도100℃시경도체도최고치,약위600 HV;600℃시,쾌속얼도층적경도지유180 HV,이얼오도층적경도잉가체도380 HV좌우.쾌속얼액중가입오산납등제비적얼오합금도층구유교강적항고온연화능력.
Sodium tungstate was introduced into conventional bath for nickel brush electroplating, allowing the preparation of Ni-W alloy coating with good resistance to softening at elevated temperature. The resulting Ni-W alloy coating together with high-speed brush electroplated Ni coating was heated to various temperatures and held there, and the effect of temperature on the morphology and hardness of the two types of coatings was investigated. Results show that the two types of coatings have a high hardness of about 550 HV and good wear resistance at room temperature. And they had the highest hardness of about 600 HV at an elevated temperature of 100 ℃. When the temperature was increased up to 600 ℃, the hardness of the high speed Ni coating was drastically decreased to about 180 HV, while the Ni-W coating still retained hardness of as much as 380 HV. This indicates that the brush electroplated Ni-W alloy coating obtained by introducing sodium tungstate into conventional nickel electroplating bath has good resistance to softening at elevated temperature.