1) Plasma Powder Welding technology
等离子喷焊工艺
3) plasma spray welding
等离子喷焊
1.
Research on tracking control system for triple eccentric butterfly valve plasma spray welding;
蝶阀等离子喷焊焊缝跟踪系统设计
2.
Development of plasma spray welding equipment of triple eccentric butterfly-type valve;
三偏心蝶阀等离子喷焊设备的研制
3.
Preparation and performance analysis on wear-resistance coating of plasma spray welding
等离子喷焊耐磨涂层制备及性能分析
4) PTAW
等离子喷焊
1.
Realization of autocontrol of PTAW process based on VB;
基于VB实现等离子喷焊过程自动控制
2.
Firstly, the characteristics, history, actuality and application of PTAW (Plasma Transferred Arc Welding) are introduced in this paper.
本文首先介绍了等离子喷焊技术的特点、发展历史、现状及应用,接着阐述了喷焊技术的发展方向以及PLC和单片机控制器在喷焊过程中的应用,并针对目前国内等离子喷焊设备大多采用硅整流电源、体积大、可靠性差等问题,提出了主电源采用IGBT逆变电源,控制系统采用PC机与单片机联合控制的研究方向。
3.
Plasma transferred arc welding(PTAW) is an advanced surface strengthen method, which adopts plasma arc as high temperature source and welds on the.
等离子喷焊是一种先进的表面强化技术,它采用等离子弧作为高温热源,在金属基体表面喷焊,形成具有耐磨、耐高温、抗腐蚀等特殊性能的喷焊层。
5) Plasma spurt welding
等离子喷焊
1.
The effect of coating on anti corrosion has been studied,which is formed by laser cladding and plasma spurt welding on metal base of anti acid stainless steel.
研究了在耐酸不锈钢基体上采用激光熔覆和等离子喷焊两种工艺形成的涂层对耐腐蚀性的影响。
2.
The dilution of laser cladding layer diluted by base metal composition was determined,the microstructure and dilution of laser cladding layer was compared with that of plasma spurt welding layer on the same kind of test piece.
采用5kW横流CO2激光器对1Cr18Ni9Ti核阀密封面进行了Co基合金激光熔覆处理,测定了激光熔覆层的受基体成分稀释的稀释率,并将其微观组织形貌、稀释率与等离子喷焊处理的同种试件进行了对比分析。
6) plasma arc spray welding
等离子弧喷焊
1.
The microstructure and microhardness of iron-base self-fluxing alloy powder plasma arc spray welding was investigated by means of scanning electron microscopy,x-ray diffraction,spectrometer and microhardness tester.
借助扫描电镜、X射线衍射仪、能谱分析仪和显微硬度计研究了 Fe- C- Σ X多元合金等离子弧喷焊的组织、结构和显微硬度。
补充资料:等离子体喷焰
分子式:
CAS号:
性质:发射光谱分析激发光源,温度在数千至一万多度,试样以溶液喷雾法或粉末吹样法注入。它是在阳极和环状阴极间产生数十至百安直流电弧放电,将氩气或氮气沿轴向引入,由于热收缩和电磁收缩效应,弧焰等离子体受到压缩,由环状阴极的中心孔喷出,形成等离子体喷焰。
CAS号:
性质:发射光谱分析激发光源,温度在数千至一万多度,试样以溶液喷雾法或粉末吹样法注入。它是在阳极和环状阴极间产生数十至百安直流电弧放电,将氩气或氮气沿轴向引入,由于热收缩和电磁收缩效应,弧焰等离子体受到压缩,由环状阴极的中心孔喷出,形成等离子体喷焰。
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