oxy-acetylene flame
- n.氧乙炔火焰;氧炔焰
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A new type of wear resistance material for oxy-acetylene flame welding
一种新的气焊耐磨材料
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Microstructure and corrosion wear performance of alloy layers of oxy-acetylene flame and plasma arc spraying welding
氧乙炔火焰和等离子弧喷焊合金涂层的组织和耐腐蚀磨损性能
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Study of Microstructure of Nickel-Based Alloy Powder Oxy-Acetylene Flame Spray-Weld Layer
镍基合金粉末氧乙炔火焰喷焊层的组织研究
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Analysis of interfacial structure of Ti / Cu / Ti diffusion brazing heated with oxy-acetylene flame
Ti/Cu/Ti火焰加热扩散钎焊界面组织分析
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Melting Plasma Spraying Ni-Cr-B-Si Coating Using Oxy-Acetylene Flame
氧&乙炔火焰熔凝Ni-Cr-B-Si合金粉末等离子喷涂层
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Finally , the method of surface cladding by MBPA was compared with the coating layer by oxy-acetylene flame spraying .
最后对微束等离子弧表面连续熔覆与火焰喷熔两种方法进行了比较。
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A mild pre-heating of the whole socket area is recommended . apply heat to parts to be joined . The preferred method is by oxy-acetylene flame .
建议对整个管套区域进行适当的预热。建议采用乙炔火焰对连接部件进行加热。
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The research on the method of spray welding using oxy-acetylene flame to form a deposit made from a certain kind of wear-resistant compound-alloy powder to prolong the life of machine parts
耐磨复合合金粉末氧乙炔焰喷焊提高零部件使用寿命的研究
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Ni60 + 20 % ( wt ) WC alloy coating was deposited on a low carbon steel substrate by oxy-acetylene flame spray and then remelted with laser beam .
利用氧-乙炔火焰喷涂+激光重熔的方法,在低碳钢表面制备Ni60+20%(wt)WC合金涂层。
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Plasma sprayed 75Cr3C2 / 25NiCr coating and oxy-acetylene flame sprayed and fused Ni60 / 35 % WC coating were adopted as the other two schemes for comparison .
同时,将等离子喷涂75Cr3C2/25NiCr涂层和氧乙炔火焰喷焊Ni60/35%WC涂层作为对比涂层。
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This paper discusses the effects of rotational speed of a part on the remelting quality of coating player when surface of the part is treated by using remelting and two - step spray melting method with oxy-acetylene flame self-melting alloy powder .
本文研究对回转体零件表面进行氧乙炔焰自熔合金粉末二步法喷熔,用火焰对涂层作重熔处理时,零件的旋转速度对涂层重溶质量的影响。
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In the fast cast iron repair welding technology , with the heating of oxy-acetylene flame , faster hot-spotting and shorter residence time at 950 ~ 1 050 ℃ can effectively control the volume of austenite and its degree of homogenization .
在快速铸铁补焊技术的氧乙炔火焰加热条件下,尽可能快速地进行局部加热和缩短焊接温度时的停留时间,可以有效控制高温时铸铁的奥氏体转变量和奥氏体的均匀化程度。
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Carbon nanofiber ( CNF ) coatings were successfully deposited on a low carbon steel substrate that was pretreated by concentrated nitric acid using an oxy-acetylene reducing flame .
低碳钢经浓硝酸浸蚀预处理后,调节氧乙炔火焰成碳化焰,预处理过的低碳钢基体表面火焰沉积获得纳米炭纤维涂层。