Expanding the Technological Possibilities of Multilayer Micro-Plasma Powder Deposition Process by Optimizing the Quality and Composition of Process Gases

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES
M. CHERVIAKOV, O. YAROVYTSYN, H. KHRUSHCHOV
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Abstract

Introduction. Mastering the micro-plasma powder deposition (MPWD) technology for refurbishing parts of nickel-based super alloy aircraft gas turbine engine (GTE) has been remaining a relevant task of the Ukrainian air craft industry for, at least, 15 last years.Problem Statement. MPWD or subsequent heat treatment of GTE parts made of nickel-based super alloy after long-term operating hours, with high γ'-phase content, might reveal increased cracking susceptibility. The search for ways to optimize the welding deposition technology has shown the necessity to scrutinize the positive technological effect of rational choice of the quality and content of process (shielding, plasma and transporting) gases.Purpose. To study the effect of process gas content on the heat source parameters, the conditions of the formation of deposited metal and its quality.Material and Methods. Comparative study of the micro-plasma (PPS04 plasmatron, UPNS-304M welding machine) and TIG (VSVU-315 power source) arc heat parameters depending on welding current and process gas has been conducted by the conventional flow calorimetry technology. Comparative estimation of the total work piece heat input parameters has been made based on the previously developed methodology with registering the welding current parameters based on m-DAQ14 analog-to-digital converter (ADC).Results. The comparative research during MPWD of sample parts has shown that the content and quality of process gases can significantly (up to 2.5 times) affect the amount of heat transferred into the work piece and, respectively, the possibility to provide the technological strength of “base-deposited metal” welded joint.Conclusions. The industrial MPWD process optimization by the criteria of work piece heat input parameters, technological strength of “base-deposited metal” welded joint and filler powder consumption,by means of increasing argon (plasma and transporting gas) quality by other gases impurities content and switch to 90% Ar + 10% Н2 argonhydrogen mixture shielding gas has been established to be promising and expedient way to solve the problem.
通过优化工艺气体的质量和组成,扩大多层微等离子体粉末沉积工艺的技术可能性
介绍。掌握用于镍基超合金飞机燃气涡轮发动机(GTE)部件翻新的微等离子体粉末沉积(MPWD)技术一直是乌克兰航空工业至少15年来的相关任务。问题陈述。长时间工作后,高γ′相含量的镍基高温合金GTE部件的MPWD或后续热处理可能会增加其开裂敏感性。寻找优化焊接沉积技术的方法表明,有必要仔细研究合理选择工艺(保护、等离子体和输送)气体的质量和含量所产生的积极技术效果。研究工艺气体含量对热源参数、沉积金属形成条件及质量的影响。材料和方法。采用常规流动量热技术对微等离子体(PPS04等离子体,UPNS-304M焊机)和TIG (VSVU-315电源)电弧热参数随焊接电流和工艺气体的变化进行了对比研究。基于m-DAQ14模数转换器(ADC)登记焊接电流参数的方法,对工件总热输入参数进行了比较估计。样品零件MPWD过程中的对比研究表明,工艺气体的含量和质量可以显著地(高达2.5倍)影响传递到工件的热量,分别影响提供“基底沉积金属”焊接接头技术强度的可能性。以工件热输入参数、“基底沉积金属”焊接接头工艺强度和填充剂粉末用量为标准,通过其他气体杂质含量提高氩气(等离子体和输送气体)质量,切换到90% Ar + 10% Н2氩氢混合保护气体,建立了工业MPWD工艺优化方法,是解决这一问题的有效途径。
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来源期刊
Science and innovation
Science and innovation MULTIDISCIPLINARY SCIENCES-
CiteScore
1.10
自引率
0.00%
发文量
55
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