RESEARCH AND OPTIMIZATION OF REFURBISHMENT OF HPT BLADES OF THE D-18T AIRCRAFT GAS TURBINE ENGINE BY MICRO-PLASMA POWDER WELDING

Pub Date : 2022-07-18 DOI:10.15407/knit2022.03.003
K. Yushchenko, O. Yarovytsyn, G. D. Khrushchov, I. Petrik, S. L. Chygileichyk
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Abstract

In current work, peculiarities of the micro-plasma powder welding deposition process applied to the batch refurbishment of D-18T aircraft engine HPT blades made of ZhS32-VI nickel superalloy with limited weldability have been studied. It has been demonstrated that extending operating resource over 6-8 thousand hours leads to an increase in ZhS32-VI “base-deposited metal” weld’s cracking susceptibility during welding and subsequent thermal processing operations. It has been shown that providing stable forming of deposited bead on the shroud edge’s surface requires applying nonstationary impulse modes of straight polarity welding current. Considering the significant amount of technological parameters of the process studied, subjective analysis of such welding modes is extremely complicated. We have introduced the method of specifying requirements for such single-layer micro-plasma powder welding deposition modes with welding current in a range of 7-20 A according to the criteria of effective arc heating power and heat input, which involves using the system for registration and digital processing of welding current-welding bead deposition time dependency. Based on the analysis of statistical data on the quantitative evaluation of cracking susceptibility of the investigated weld, the optimal range of average values has been discovered for these generalized welding deposition mode parameters to be applied in a manual or automated process, which provides no more than several percent of cracked blades detected at the end of refurbishment technological cycle. We have shown that significant technological parameters, which affect the amount of technological defects during mentioned blades’ refurbishment, are the average value of effective welding current and ZhS32 superalloy powder quality, primarily determined by oxygen and nitrogen average weight content in its dispersed particles. It was also shown that the increase in average weight content of gas impurities in the filler powder, primarily oxygen, causes a significant increase in energy consumed on deposited bead formation during the micro-plasma powder deposition process. An initial quality control method for the ZhS32-VI filler powder range has been proposed. The method is based on the average weight content of oxygen and nitrogen, evaluated by reducing fusion in transporting gas flow and on evaluation criteria of effective arc heating power and heat input average values of witness sample blades’ refurbishment process and their conformity to previously defined optimal. An evaluation of future application possibilities for registration systems and deposition mode analysis in batch repair conditions of nickel superalloy aircraft parts has been introduced.
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d-18t飞机燃气涡轮发动机HPT叶片微等离子体粉末焊接修复研究与优化
本文研究了微等离子体粉末焊接沉积工艺应用于有限焊接性的ZhS32-VI镍高温合金D-18T飞机发动机HPT叶片批量翻新的特点。研究表明,延长作业时间超过6-8千小时,会导致ZhS32-VI“基底沉积金属”焊缝在焊接及后续热加工过程中的开裂敏感性增加。研究表明,要使熔敷焊头在焊罩边缘表面稳定成形,需要施加非稳态直极性焊接电流脉冲模式。考虑到所研究的工艺参数非常多,对这种焊接方式的主观分析是非常复杂的。我们介绍了根据有效电弧加热功率和热输入的标准,确定焊接电流在7-20 a范围内的单层微等离子体粉末焊接沉积模式的要求的方法,其中涉及到使用该系统对焊接电流进行登记和数字化处理。通过对所研究焊缝裂纹敏感性定量评价统计数据的分析,发现了适用于手工或自动化工艺的这些广义焊接沉积模式参数的最佳平均值范围,该范围提供了不超过翻新工艺周期结束时检测到的裂纹叶片的百分之几。结果表明,影响上述叶片翻新过程中工艺缺陷数量的重要工艺参数是有效焊接电流平均值和ZhS32高温合金粉末质量,主要由其分散颗粒中氧和氮的平均重量含量决定。研究还表明,在微等离子体粉末沉积过程中,填充粉末中气体杂质(主要是氧)平均重量含量的增加,导致沉积珠层形成所消耗的能量显著增加。提出了ZhS32-VI填料粉体范围的初步质量控制方法。该方法基于氧和氮的平均重量含量,通过输送气流中的减少熔合来评估,并基于见证样品叶片翻新过程的有效电弧加热功率和热输入平均值及其符合先前定义的最优评价标准。介绍了在飞机镍高温合金零件批量修理条件下,对登记系统和沉积模式分析的应用前景进行了评价。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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