Evaluation of Parameters Affecting Magnetic Abrasive Finishing (MAF) of Superalloy Inconel ۷۱۸

سال انتشار: 1396
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 177

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شناسه ملی سند علمی:

JR_ADMTL-10-3_001

تاریخ نمایه سازی: 18 اردیبهشت 1400

چکیده مقاله:

Superalloys generally are among the materials with poor machinability. The removal of metal contaminations, stains, and oxides can positively affect their performance. Magnetic Abrasive Finishing (MAF) is a method which uses a magnetic field to control the material removal. As another advantage, this method can be used to polish materials such assuperalloys which have high strength and special conditions. In this paper, we investigated the magnetic abrasive finishing of nickel-base superalloy Inconel ۷۱۸. Since the process is highly influenced by several effective parameters, in this study we evaluated the effects of some of these parameters such as percentage of abrasive particles, gap, rotational speed, feed rate, and the relationship between size of abrasive particles and the reduction of average surface roughness. Using Minitab software package the experiments were designed based on a statistical method. Response surface method was used as the design of the experiment. The regression equation governing the process was extracted through the assessment of effective parameters and analysis of variance. In addition, the optimum conditions of MAF were also extracted. Analysis of the outputs of MAF process experiments on IN۷۱۸ revealed that gap, weight percent of abrasive particles, feed rate, rotational speed, and size of abrasive particles were the factors that affected the level of changes in surface roughness. The distance between the magnet and the work piece surface, i.e. the gap, is the most important parameter which affects the changes in surface roughness.  The surface roughness can decrease up to ۶۲% through setting up the process at its optimum state i.e. in a rotational speed of ۱۴۵۳ rpm, feed rate of ۱۰ mm/min, percentage of abrasive particles equal to ۱۷.۸۷%, size of particles equal to #۱۲۰۰, and gap size of ۱ mm. There is a discrepancy of ۱۳% between this prediction and the predicted value by the regression model. With mounting a magnet with a different pole beneath the work piece, magnetic flux density increases up to ۳۵%.

نویسندگان

Mehrdad Vahdati

Department of Mechanical Engineering K.N. Toosi University of Technology, Tehran, Iran

SeyedAlireza Rasouli

Department of Mechanical Engineering K.N. Toosi University of Technology, Tehran, Iran

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  • Tso, P. L., “Study on the Grinding of Inconel 718”, ...
  • Ezugwu, E., Bonney, J., “Finish Machining of Nickel-Base Inconel 718 ...
  • Öpöz, T. T., Chen, X., “Experimental Study on Single Grit ...
  • Aspinwall, D., Dewes, R., Ng, E. G., Sage, C., and ...
  • Jain, V., “Magnetic Field Assisted Abrasive Based Micro-/Nano-Finishing”, Journal of ...
  • Mulik, R. S., Pandey, P. M., “Magnetic Abrasive Finishing of ...
  • Girma, B., Joshi, S. S., Raghuram, M., and Balasubramaniam, R., ...
  • Yang, L. D., Lin, C. T., and Chow, H. M., ...
  • Givi, M., Tehrani, A. F., and Mohammadi, A., “Polishing of ...
  • Kim, S., Kwak, J., “Magnetic Force Improvement and Parameter Optimization ...
  • Kim, T. W., Kang, D. M., and Kwak, J. S., ...
  • Mun, S. D., “Micro Machining of High-Hardness Materials Using Magnetic ...
  • Mulik, R. S., Pandey, P. M., “Magnetic Abrasive Finishing of ...
  • Lin, C. T., Yang, L. D., and Chow, H. M., ...
  • Accessed; http://www.taylor-hobson.com/ ...
  • Montgomery, D. C., Design and Analysis of Experiments: John Wiley ...
  • نمایش کامل مراجع