摘要
等离子弧粉末堆焊技术是堆焊技术领域中一项较新的工艺方法,它具有熔深浅、稀释率较低、熔敷率高的优点。但是合金粉末的利用率较低。合金粉末大都属于贵金属,造价很高,所以堆焊成本相对较高。与堆焊粉末相比,实心焊丝或药芯焊丝的价格要便宜很多,同时丝的熔敷效率较高,因此用丝来替代堆焊粉末的堆焊工艺具有较高的工程应用价值。然而近年来对等离子弧粉末堆焊的研究较为活跃,相对自动送丝等离子弧堆焊研究较少。
本文从等离子弧堆焊工艺的角度出发,提出用普通焊丝代替昂贵金属粉末的堆焊工艺,目的是在保证堆焊层质量的前提下,降低堆焊的成本。并能实现同机送丝或丝粉混合堆焊,针对这一问题在LPC堆焊机上进行可行性实验,最后用正交设计确定出送丝堆焊合理的参数范围。并对焊枪的结构,送丝电路和送丝机构进行相应的设计。
本文研究内容、研究结果如下:
(1)在LPC型堆焊机上进行填丝堆焊,对工艺参数对堆焊层质量的影响进行分析,然后设计正交实验,确定出在LPC型堆焊机上填丝堆焊的最佳工艺参数组合;
(2)为实现同机填丝堆焊,在控制柜中加入送丝电路,完成对送丝电路和主要元件参数的设计,同时对送丝机构提出设计初步方案;
(3)完成对送丝式粉末堆焊枪的初步设计方案,针对实验中出现的问题提出堆焊枪设计中需注意的细节,主要提出合理的送丝通道、送粉通道的设计,冷却水系统的设计,以及枪体材料的选用。
Plasma arc powder surfacing technology is a newer technique in the field ofoverlaying welding ,with the characteristic shallow penetration ,lower-rate of dilutionand higher deposition efficiency . the utilization ratio of alloy powder is very low .thealloy powder mostly belongs to the precious metals which prices are moreexpensive.therefore the cost of build-up welding cost was greatly enhanced.comparingto the alloy powder , the price of wire is much lower than the alloy powder . but thedeposition efficiency are much higher,the research on the plasma arc powder wasmore active in recent years ,however ,the study of plasma arc surfacing on automaticwire feeder was relatively much less.
The essay focus on the technique of build-up welding,the technique introducesto replace the alloy powder with common wire.the obiect is to reduce the cost ofbuild-up weldingunder the premise of high quality piles layer.finally realize build-upwelding feeding with wire orwire mixed powder at the same machine.on this issue,we did feasibility experiment on the LPC surfacing machine,the reasonableparameters range is defined using orthogonal design.the structure of plasma torch wirefeed circuit as well as wire feeding device were designed.
In this paper , following research results are obtained:
1,Do the experiment at LPCsurfacing machine,analyses the impact ofparameters to the layer quality,and then design orthogonal experiments,finallydetermine the optimum technical parameters of plasma arc wire surfacing .
2 In order to feed wire at one machine,we add wire feed circuit in controlcabinet,design main components parameters of wire feed circuit.and reconstrucewire feeding device.
3 design and reconstruct the plasma torch,the design focus on the channel ofpowder and wire .the rebuild of cooling system .how to elect materimals of theplasma torch.
引文
[1]单际国,董祖珏,徐滨士.我国堆焊技术的发展及其在基础工业中的应用现状[J].中国表面工程,2002,4(57):19-22.
[2]毛红英,林炜波,赵昆,等.获得高熔敷速度与低稀释率的等离子粉末堆焊方法[J].焊接,2002(6):27-29.
[3]汪瑞军,徐林,黄小欧,等.等离子粉末堆焊技术在石油化工行业的应用[J].焊接,2003,(1):24-26.
[4]Nefedov Lyalyakin,Development of plasma welding and surfacingabroad[J].Welding Internatinal,1998,12(9):736-741.
[5]李健,等.离子弧模具堆焊修复新工艺[J].锻压技术,1997,(4):60-61.
[6]MAqKAMoB.等离子粉末堆焊法的试验和应用[J].国外机车车辆工艺,1998,(2):34—37.
[7]PaпчeΗKO M .B.用电子束堆焊法强化铝硅合金活塞表[J].国外机车车辆工艺,2001(1):18-2O.
[8]刘雪梅,张彦华.高能束粉末堆焊技术[J].表面技术,2005,34(4):9-11.
[9]戚文军,何艳冰,刘斌,等.激光堆焊镍摹碳化钨梯度焊层及耐磨机理分析[J] .焊接学报,2002,(1):57-60.
[10]Geiger M.Synergy of laser material processing and metal forming[J],Annals ofthe CIRP [J].1994,43(3):563—570.
[11]中井建二.激光堆焊在发动机气门上的应用[J].熔接技术,1991,39(8):68-73.
[12]单际国.聚焦光束钎焊及表面改性技术[D].北京:清华大学,1998:5-6.
[13]李辉,单际国,任家烈.同步送粉高能束粉末堆焊技术的研究现状[J].热加工工艺,2001,4:53-55.
[14]董祖珏,黄庆云.国内外堆焊发展现状[A].第八次全国焊接会议论文集[C].北京:机械工业出版社.
[15]愈斌.轧辊的堆焊及价值初探[J].四川冶金,2001,1:25-27.
[16]胡秀彬.ZG75CrMo热轧工作辊堆焊工艺研究[J].焊接技术,1999,4:13—14.
[17]伍珠良,雷万钧,等.用药芯焊丝堆焊修复热轧辊[M].焊接技术,1997,3:12-14.
[18]黄文哲,等.金属材料堆焊,焊接手册(第2卷)[M].北京:机械工业出版社,1992:615-651.
[19]程华,印有胜.我国阀门密封面堆焊合金现状及发展[J].阀门,2001,23(5):379—381.
[20]吉国光.发动机的气门材料及加工工艺[J].内燃机,1995,6:11—12.
[21]姚正刚.柴油机气门盘锥面氧乙炔自动堆焊工艺[J].汽车工艺与材料,1996,10:18-20.
[22]李亚江,张永喜,王娟,等.焊接修复技术[M].北京:化学工业出版社,2005,207-208 .
[23]赵昆,程志国.优质高耐磨性堆焊技术一复合材料等离子弧堆焊及其现状[J].焊接,1992(2):5-8.
[24] Zhang Haiou,Wang Guilan,Luo Yunhua .Rapid hard tooling by plasmaspraying for injection molding and sheet metal forming[J].Thin Solid Films,2001,(390),7—12.
[25]北京数学力学概率统计组.正交设计法[M].北京:石油化学工业出版社,1976.
[26]朱嘉琦,王铁钧,何实,等.NiCrWSi系耐磨堆焊合金的设计合熔敷层性能研究[J].焊接,2000 (10): 12-14.
[27]L. J. Yang. Plasma surface hardening of ASSAB 760 steel soecimens withTaguchi optimization of the processing parameters[J]. Journal MaterialsProcessing Technology,2001(113):521-526.
[28]何德孚.焊接与连接工程学导论[M].上海:上海交通大学出版社出版社,1998.
[29]季杰,苗会,刘政军,等.铁基高温耐磨等离子弧堆焊合金粉末的优化设计焊接技术,1998 (1):4-6.
[30]薛为民.正交多相式回归分析[M].北京:化学工业出版社,1989.
[31]廖晓钟.电气传动与调速系统[M].北京:中国电力出版社,1998,62-71.
[32]赵扶摇,万里雄.直流电动机晶闸管调速系统[M].北京:机械工业出版社,1986.
[33]沈安俊.电气自动控制[M],北京:机械工业出版社,1986.
[34]曹炎珍.平面堆焊自动控制系统的研究[D].成都:西南交通大学.
[35]中国人民解放军武字二五一部队.可控硅原理及应用[M].北京:中国人民解放军武字二五一部队,1970, 52-54.
[36]范绿蓉.基于FPGA的直流电动机调速系统的设计和实现[D].武汉:华中师范大学,2004.
[37]姜焕中.电弧焊及电渣焊[M],北京:机械工业出版社,1988.
[38]张树生,洪秋华,董晓强.SY-1型小内孔粉末等离子堆焊枪的研制[J].沈阳工业大学学报,1983 (3): 11-14.
[39]J.H.Houben,Some Remarks on Plasma Spraying Powder InjectionTechniques[C],8th International Thermal Spraying Conference,Miami,1980.
[40]季杰.Cu-Ni合金粉末等离子堆焊材料及渗透裂纹机理的研究[D].天津:天津大学,1999.
[41]Cabot Corp,Kokomo. Compact Plasma Torch Solves SurfacingProblem[J].Welding Journal,1982 (5) : 44-45.
[42]Beleslav Gross. Plasma technology,Lliffe Books L/td.1968,10-40.
[43]E.PFENDE.Fundamental studies associated with the plasma sprayprocess[J].Surface and Coating Technology,1988(34):15-23.
[44]董丽红.粉末等离子弧堆焊枪体及耐磨合金的研究[D].天津:天津大学,2002.