1) nickel phosphor plating
镍磷镀
1.
In order to solve this problem, we compare all kinds of anticorrosive techniques and measures applied in the top of normal pressure tower of distillation equipments of refinery and analyze the Economic benefits about anticorrosive technique of nickel phosphor plating applied, so we advocate applying the anticorrosive technique of nickel phosphor plating.
独山子石化炼油厂自加工哈油以来各装置设备腐蚀明显加剧,镍磷镀防腐蚀技术得以推广应用。
2) Ni-P coating
镍磷镀层
1.
Study on CO_2 corrosion resistance Of oil steel J55 and it's Ni-P coating;
J55油管钢及其镍磷镀层的抗CO_2腐蚀性能研究
2.
The influences of electroless Ni-P coating on fatigue property of spring steel were studied by comparative tests,and the mechanism was analyzed.
采用三点弯曲疲劳试验法研究化学镀镍磷镀层对70弹簧钢疲劳性能的影响。
3.
In comparison to the conventional Ni-P coating,the co-deposited nano-coating has denser microstructure,higher micro-hardness and wearability.
结果表明:与传统镍磷镀层相比较,纳米颗粒的加入使复合镀层中的组织结构更加致密,显微硬度有较大程度的提高,耐磨性增强,其中Ni-P/WC镀层的性能优于Ni-P/SiC镀层。
3) Ni P plating
刷镀镍磷
1.
Introducing Ni P plating technological principle and its solution confecting method,explaining its application on the valve sealing.
介绍了刷镀镍磷的工艺原理及其溶液配制方法 ,简述了该工艺在阀门密封副上的应用情
4) Ni-P coating
镍-磷镀层
1.
The most widely used Ni-P coating by brush plating was researched.
以目前应用最广泛的刷镀镀层之一——镍-磷镀层为对象,利用自制多功能刷镀电源、原子力显微镜等设备,测得了刷镀时间与刷镀电流之间的关系,通过数据处理求得了二者之间的函数关系,在此基础上进一步求得了电流密度(刷镀电流/刷镀面积)与刷镀时间之间的函数关系;利用原子力显微镜测得镀层界面处、接近界面处和远离界面处的镀层颗粒形貌,结合刷镀电流密度与刷镀时间之间的关系,建立了刷镀镀层生长的模型。
2.
The micro-hardness,tribological properties and corrosion resistance were investigated and compared with those of Ni-P coating.
采用化学镀技术制备了纳米α-Al2O3和γ-Al2O3颗粒增强的镍-磷复合镀层,利用X射线衍射仪、扫描电子显微镜、电子探针等对复合镀层的物相结构、表面形貌、成分分布进行了分析,还对比了复合镀层与镍-磷镀层的显微硬度、耐磨性和耐腐蚀性。
5) electroless Ni-P plating
化学镀镍磷
1.
The deposition rate and buffering capability of electroless Ni-P plating were studied by ammonium fluoride addition.
关于氟化物在化学镀镍磷工艺中的应用已有报道,在镁基体上化学镀的前处理过程中,常用氢氟酸或氟化氢铵来进行活化处理;硅片表面上的化学镀也通常用HF与HNO3或HCl的混酸来活化,使硅片表面产生Si-H键。
6) Ni-P brush-plating
镍磷电刷镀
补充资料:磷化镍
分子式: Ni2P
CAS号:
性质:灰色结晶。密度6.31g/cm3。熔点1112℃。溶于王水,不溶于冷水,稀酸和稀碱。将磷酸镍加热,在氢气流中进行还原反应制得。用于化学镀镍涂层。
CAS号:
性质:灰色结晶。密度6.31g/cm3。熔点1112℃。溶于王水,不溶于冷水,稀酸和稀碱。将磷酸镍加热,在氢气流中进行还原反应制得。用于化学镀镍涂层。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条