Investigation of electrolyte pressure effect on blisk blades during electrochemical machining

IF 1.7 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Multidiscipline Modeling in Materials and Structures Pub Date : 2024-03-22 DOI:10.1108/mmms-08-2023-0270
Muhammed Turan Aslan, B. Kanber, H. Demirtas, B. Sungur
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Abstract

PurposeThe purpose of this study is analysis of deformation and vibrations of turbine blades produced by high electrolyte pressure during electrochemical machining.Design/methodology/approachAn experimental setup was designed, experiments were conducted and the obtained results were compared with the finite element results. The deformations were measured according to various flow rates of electrolyte. In finite element calculations, the pressure distribution created by the electrolyte on the blade surface was obtained in the ANSYS® (A finite element analysis software) Fluent software and transferred to the static structural where the deformation analysis was carried out. Three different parameters were examined, namely blade thickness, blade material and electrolyte pressure on blade disk caused by mass flow rate. The deformation results were compared with the gap distances between cathode and anode.FindingsLarge deformations were obtained at the free end of the blade and the most curved part of it. The appropriate pressure values for the electrolyte to be used in the production of blisk blades were proposed numerically. It has been determined that high pressure applications are not suitable for gap distance lower than 0.5 mm.Originality/valueWhen the literature is examined, it is required that the high speed flow of the electrolyte is desired in order to remove the parts that are separated from the anode from the machining area during electrochemical machining. However, the electrolyte flowing at high speeds causes high pressure in the blisk blades, excessive deformation and vibration of the machined part, and as a result, contact of the anode with the cathode. This study provides important findings for smooth electro chemical machining at high electrolyte flows.
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研究电化学加工过程中电解液压力对叶片的影响
设计/方法/途径设计了实验装置,进行了实验,并将所得结果与有限元结果进行了比较。根据不同的电解液流速测量了变形。在有限元计算中,电解液在叶片表面产生的压力分布由 ANSYS® (一种有限元分析软件)Fluent 软件获得,并转移到静态结构中进行变形分析。研究了三个不同的参数,即叶片厚度、叶片材料和由质量流量引起的叶片盘面上的电解液压力。变形结果与阴极和阳极之间的间隙距离进行了比较。研究结果叶片的自由端和最弯曲的部分变形较大。通过数值计算提出了用于生产叶片的电解液的适当压力值。原创性/价值在研究文献时,需要电解液的高速流动,以便在电化学加工过程中将与阳极分离的部件从加工区域中清除。然而,高速流动的电解液会导致刀盘叶片内压力过高,被加工零件过度变形和振动,从而导致阳极与阴极接触。这项研究为在电解液高速流动的情况下顺利进行电化学加工提供了重要发现。
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来源期刊
CiteScore
3.70
自引率
5.00%
发文量
60
期刊介绍: Multidiscipline Modeling in Materials and Structures is published by Emerald Group Publishing Limited from 2010
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