Paper Titles

Possibilities Reducing of Energy Consumption by Cast Iron Production in Foundry
p.36

Influence of Charge Composition on EN-GJS-500-7 Ductile Iron Properties in Foundry Operating Conditions
p.42

Influence of Ni Content on Erosive Wear and Destabilization Heat Treatment Conditions Behavior of Multi Component White Cast Iron
p.48

Multi-Objective Optimization of Electrical Discharge Machining Parameters for 2024 Aluminum Alloy Using Grey-Taguchi Method
p.55

Multi-Criteria Optimization of Dressing Parameters for Surface Grinding 90CrSi Tool Steel Using Taguchi Method and Grey Relational Analysis
p.61

Enhancement of Photocatalytic Performance of Anatase by Silver Deposition through Chemical Reduction Process at Room Temperature
p.71

Effect of Anatase/Rutile Phase Ratio on the Photodegradation of Methylene Blue under UV Irradiation
p.78

Influence of Preparation Methods of TiO₂ Nano-Particle on Photodegradation of Methylene Blue
p.84

Changing of Particle Size and Pore Structures of Calcium Oxide during Calcinations of Industrial Eggshell Waste
p.90

HomeMaterials Science ForumMaterials Science Forum Vol. 998Multi-Criteria Optimization of Dressing Parameters...

Multi-Criteria Optimization of Dressing Parameters for Surface Grinding 90CrSi Tool Steel Using Taguchi Method and Grey Relational Analysis

Article Preview

Abstract:

This paper introduces a study on multi-criteria optimization of the dressing parameters in surface grinding for 90CrSi tool steel. The aim of the study is to minimize the surface roughness, the normal shear force and maximize the grinding wheel life by using Taguchi method and Grey Relational Analysis (GRA). This multi-objective optimization is obtained by optimizing four four-level and two two-level dressing parameters in sixteen experiments based on an orthogonal array L₁₆(4⁴×2²). From the results of the study, the optimum dressing parameters were proposed. Also, to evaluate the optimum dressing model, an experiment was performed. The results of the comparison between the predicted model and the experiment show that the proposed model has been proven and it can be used for further applying of surface grinding.

You might also be interested in these eBooks

Material Science and Engineering Technology VIII

Info:

Periodical:

Materials Science Forum (Volume 998)

Pages:

61-68

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.998.61

Citation:

Cite this paper

Online since:

June 2020

Authors:

Tran Thi Hong, Nguyen Van Cuong, Le Hong Ky, Quoc Tuan Nguyen, Banh Tien Long, Luu Anh Tung, Thanh Tu Nguyen, Vu Ngoc Pi*

Keywords:

Dressing, Dressing Parameters, Grinding, Surface Grinding, Surface Roughness

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

* - Corresponding Author

[1] F. locke, Manufacturing processes 2 – Grinding, honing, lapping, Springer, (2009).

[2] Vu Ngoc Pi, Le Xuan Hung, Luu Anh Tung, and Banh Tien Long. Cost Optimization of Internal Grinding. Journal of Materials Science and Engineering B 6 (11-12), 2016, pp.291-296.

DOI: 10.17265/2161-6221/2016.11-12.004

[3] Prashant J. Patil, C.R. Patil. Analysis of process parameters in surface grinding using single objective Taguchi and multi-objective grey relational grade. Perspectives in Science, Volume 8, September 2016, Pages 367-369.

DOI: 10.1016/j.pisc.2016.04.077

[4] Jae-Seob Kwak. Application of Taguchi and response surface methodologies for geometric error in surface grinding process. International Journal of Machine Tools and Manufacture. 45(3) (2005) 327-334.

DOI: 10.1016/j.ijmachtools.2004.08.007

[5] Vu Ngoc Pi, Phan Quang The, Vu Hong Khiem, Nguyen Ngoc Huong. Cost optimization of external cylindrical grinding. Applied Mechanics and Materials. 312 (2013) 982-989.

DOI: 10.4028/www.scientific.net/amm.312.982

[6] Le Xuan Hung, Vu Ngoc Pi, Luu Anh Tung, Hoang Xuan Tu, Gong Jun and Banh Tien Long, Determination of Optimal Exchanged Grinding Wheel Diameter when Internally Grinding Alloy Tool Steel 9CrSi. IOP Conf. Series: Materials Science and Engineering. 417 (2018) 012-026.

DOI: 10.1088/1757-899x/417/1/012026

[7] Jae-Seob Kwak, Sung-Bo Sim, Yeong-Deug Jeong. An analysis of grinding power and surface roughness in external cylindrical grinding of hardened SCM440 steel using the response. International Journal of Machine Tools and Manufacture, Volume 46, Issues 3–4, March 2006, Pages 304-312.

DOI: 10.1016/j.ijmachtools.2005.05.019

[8] Ngoc-Pi Vu, Quoc-Tuan Nguyen, Thi-Hong Tran, Hong-Ky Le, Anh-Tuan Nguyen, Anh-Tung Luu, Van-Tung Nguyen and Xuan-Hung Le. Optimization of Grinding Parameters for Minimum Grinding Time When Grinding Tablet Punches by CBN Wheel on CNC Milling Machine. Appl. Sci. 9(5) (2019) 957.

DOI: 10.3390/app9050957

[9] Le Xuan Hung, Le Hong Ky, Tran Thi Hong, Hoang Tien Dung, Vu Thi Lien, Luu Anh Tung, Banh Tien Long and Vu Ngoc Pi. A study on cost optimization of internal cylindrical grinding. International Journal of Mechanical Engineering and Technology (IJMET). 10(1) (2019) 414–423.

DOI: 10.17265/2161-6221/2016.11-12.004

[10] R. Gupta, K.S. Shishodia, G.S. Sekhon. Optimization of grinding process parameters using enumeration method. Journal of Materials Processing Technology. 112(1) (2001) 63-67.

DOI: 10.1016/s0924-0136(01)00546-5

[11] Vu Ngoc Pi, Luu Anh Tung, Le Xuan Hung and Nguyen Van Ngoc. Experimental Determination of Optimum Exchanged Diameter in Surface Grinding Process. Journal of Environmental Science and Engineering. 6 (2017) 85-89.

DOI: 10.17265/2162-5298/2017.02.004

[12] Thi-Hong Tran, Anh-Tung Luu, Quoc-Tuan Nguyen, Hong-Ky Le, Anh-Tuan Nguyen, Tien-Dung Hoang, Xuan-Hung Le, Tien-Long Banh and Ngoc-Pi Vu. Optimization of exchanged grinding wheel diameter for surface grinding tool steel based on the cost analysis. Metals 2019, 9(4), 448; https://doi.org/10.3390/met9040448.

DOI: 10.1016/j.matpr.2019.07.002

[13] Le Xuan Hung, Vu Ngoc Pi, Ho Ky Thanh, Le Hong Ky, Banh Tien Long. Experimental determination of Optimum exchanged diameter in internal grinding. SSRG International Journal of Mechanical Engineering. 5(1) (2018) 31-34.

DOI: 10.17265/2162-5298/2017.02.004

[14] Thi-Hong Tran, Xuan-Hung Le, Quoc-Tuan Nguyen, Hong-Ky Le, Tien-Dung Hoang, Anh-Tung Luu, Tien-Long Banh and Ngoc-Pi Vu. Optimization of Exchanged Grinding Wheel Diameter for Minimum Grinding Cost in Internal Grinding. Appl. Sci. 2019, 9(7), 1363; https://doi.org/10.3390/app9071363.

DOI: 10.17265/2161-6221/2016.11-12.004

[15] Le Xuan Hung, Vu Thi Liên, Vu Ngoc Pi, Banh Tien Long. A Study on Coolant Parameters in Internal Grinding of 9CrSi Steel. Materials Science Forum, Vol. 950, pp.24-31, (2019).

DOI: 10.4028/www.scientific.net/msf.950.24

[16] Hoang Xuan Tu, Vu Ngoc Pi, Gong Jun. A study on determination of optimum parameters for lubrication in external cylindrical grinding base on Taguchi method. Key Engineering Materials, Vol. 796, pp.97-102, (2019).

DOI: 10.4028/www.scientific.net/kem.796.97

[17] Xuan Hung Le, Ngoc Pi Vu, Anh Tung Luu, Hoang Xuan Tu, Gong Jun and Tien Long Banh. Determination of optimum exchanged grinding wheel diameter when internal grinding alloy tool steel 9CrSi. IOP Conference Series: Materials Science and Engineering, Volume 417, conference 1, 2018, https://doi.org/10.1088/1757-899X/417/1/012026.

DOI: 10.1088/1757-899x/417/1/012026

[18] F. Klocke, J. Thiermann, and P. Mattfeld (2015). Influence of the dressing process on grinding wheel wear, Production Engineering, 9 (5–6), p.563–568.

DOI: 10.1007/s11740-015-0606-y

[19] P. Puerto, R. Fernández, J. Madariaga, J. Arana and I. Gallego. Evolution of surface roughness in grinding and its relationship with the dressing parameters and the radial wear. Procedia Engineering. 63, 2013, pp.174-182.

DOI: 10.1016/j.proeng.2013.08.181

[20] S. H. Kim, and J. H. Ahn. Decision of dressing interval and depth by the direct measurement of the grinding wheel surface. Journal of Materials Processing Technology, 88, 1999, p.190 – 194.

DOI: 10.1016/s0924-0136(98)00394-x

[21] D. D. Mohite and S.M. Jadhav. An Investigation of Effect of Dressing Parameters for Minimum Surface Roughness using CNC Cylindrical Grinding Machine. IJREAS, 6(6), 2015, pp.59-68.

[22] M. Novák, N. Naprstkova, and H. Kasuga. Influence of Grinding Wheel Dressing on the Roughness of Final Surface and Cutting Force during GGG60 Grinding. Key Engineering Materials. 686: 2016, pp.218-223.

DOI: 10.4028/www.scientific.net/kem.686.218

[23] A. Daneshi, N. Jandaghi, and T. Tawakoli. Effect of Dressing on Internal Cylindrical Grinding. Procedia CIRP, 14, 2014, pp.37-41.

DOI: 10.1016/j.procir.2014.03.064