Optimization of Plasma Deposition and Coating Plasma Fusion Parameters and Regimes,Refractories and Industrial Ceramics

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Optimization of Plasma Deposition and Coating Plasma Fusion Parameters and Regimes
Refractories and Industrial Ceramics ( IF 0.4 ) Pub Date : 2021-07-24 , DOI: 10.1007/s11148-021-00557-w
I. N. Kravchenko _{1,

2} , S. V. Kartsev ₂ , Yu. A. Kuznetsov ₃ , S. A. Velichko ₄

Affiliation

Results are provided for studies concerning the choice of parameters and optimization of plasma spraying regimes (plasmatron arc current strength is 170 – 175 A, voltage is 165 – 170 V, gas consumption is 2.5 – 2.7 m³/h, sprayed material consumption is 10 g/sec, spraying distance is 140 – 160 mm) and subsequent plasma fusion (plasma arc current is 190 – 200 A, voltage is 165 – 170 V, gas consumption is 2.5 – 2.7 m³/h, distance from plasma torch to the detail is 40 – 60 mm, thickness of fused coating is up to 2 mm), that affect formation process of high-quality coatings with prescribed properties.

中文翻译：

等离子体沉积和涂层等离子体融合参数和机制的优化

提供了有关参数选择和等离子喷涂方案优化的研究结果（等离子弧电流强度为 170 – 175 A，电压为 165 – 170 V，气体消耗量为 2.5 – 2.7 m ³ /h，喷涂材料消耗量为 10 g/sec，喷涂距离为 140 – 160 mm）和随后的等离子融合（等离子弧电流为 190 – 200 A，电压为 165 – 170 V，气体消耗量为 2.5 – 2.7 m ³ /h，从等离子炬到40 – 60 毫米，熔融涂层厚度可达 2 毫米），影响具有规定性能的高质量涂层的形成过程。

更新日期：2021-07-24

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