Composition, structure and properties of electroless deposited nickel – phosphorus – copper coatings

Journal of the Belarusian State University. Chemistry Pub Date : 2019-08-30 DOI:10.33581/2520-257x-2019-2-62-68

L. S. Tsybul’skaya, S. Perevoznikov, V. Shendyukov

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Abstract

The nickel – phosphorus – copper functional coating was deposited on aluminum alloys substrate by chemical deposition method from malonateglycinate nickel plating solution. The chemical and phase coatings composition was studied by Xray fluorescence and Xray phase analyze. Thermally stimulated phase transitions in deposited Ni – P – Cu coating were detected by differential scanning calorimetry method. The annealing at 250 and 400 °С was shown to lead to the changes in coating structure involving the transition from amorphous to amorphouscrystalline at 250 °С and to crystalline at 400 °С with Ni and Ni3P1 – δ phases forming. Changes in the structure of Ni–P coating results in the increase of microhardness by 1.6–1.7 times and wear resistance by 3– 4 times. Annealing at 400 °С led to decreasing of corrosion stability of the coatings in 3.5 % sodium chloride solution. The optimum physical, mechanical and protective properties has the attained in the case of Ni – P – Cu coating annealed at 250 °C.

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化学沉积镍磷铜镀层的组成、结构和性能

以丙二酸盐-甘氨酸盐镀镍液为原料，采用化学沉积法在铝合金基体上制备了镍磷铜功能镀层。采用x射线荧光和x射线物相分析研究了涂层的化学成分和物相组成。采用差示扫描量热法对Ni - P - Cu镀层的热激相变进行了检测。250°和400°С退火导致涂层结构发生变化，在250°С从无定形转变为非晶，在400°С转变为结晶，形成Ni和Ni3P1 - δ相。Ni-P镀层组织的改变使镀层显微硬度提高1.6 ~ 1.7倍，耐磨性提高3 ~ 4倍。400°С退火导致涂层在3.5%氯化钠溶液中的腐蚀稳定性下降。在250℃退火条件下，Ni - P - Cu涂层获得了最佳的物理、机械和防护性能。

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Journal of the Belarusian State University. Chemistry

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Compo­sition, structure and properties of electroless deposited nickel – phosphorus – copper coatings

Abstract

Composition, structure and properties of electroless deposited nickel – phosphorus – copper coatings