Experimental Study on Surface Roughness and Flatness in Lapping of AISI 52100 Steel
Subject Areas : Mechanical EngineeringMasoud Farahnakian 1 , H. ُُShahrajabian 2
1 - Faculty of Engineering, Mechanical Engineering Department
Najafabad branch, Islamic Azad University, Iran
2 - Faculty of Engineering, Mechanical Engineering Department
Najafabad branch, Islamic Azad University, Iran
Keywords:
Abstract :
[1] Chen, C., Sakai, S., Inasaki, I., “Lapping of advanced ceramics”و Materials and Manufacturing Processes, Vol. 6, No. 2, 1991, pp. 211-226.
[2] Molenda, J., Charchalis, A., “Dependence between workpiece material hardness and face lapping results of steel C45”, Solid State Phenomena., Vol. 220-221, 2015, pp. 743-748.
[3] Kim, H. M., Park, G. H., Seo, Y. G., Moon, D. J., Cho, B. J., and Park, J. G., “Comparison between sapphire lapping processes using 2-body and 3-body modes as a function of diamond abrasive size ”, Wear., Vol. 332-333, 2015, pp. 794-799.
[4] Bulsara, V. H., Ahn, Y., Chandrasekar, S., and Farris, T. N., “Polishing and lapping temperature”, Trans. ASME J. Tribol., Vol. 119, 1997, pp. 163-170.
[5] Chang, Y. P., Dornfeld, D. A., “An investigation of the AE signals in the lapping process”, Annals CIRP., Vol. 45, 1996, pp. 331-334.
[6] Uhlmann, E., Ardelt, T., “Influence of kinematics on the face grinding process on lapping machines”, Annals CIRP., Vol. 48, No. 1, 1999, pp. 281-284.
[7] Guzzo, P. L., De Mello, J. D. B., and Daniel, J., “Effect of crystal orientation on lapping and polishing processes of natural quartz, IEEE Trans. Ultrasonics Ferroelectrics Frequency Control”, Vol. 47, 2000, pp. 1217-1227.
[8] Mamalis, G., Hidasi, B., Dudas, Z., and Branis, A. S., “On the Lapping Mechanism of Sintered A12O3 Ceramic Surfaces Using Diamonds”, Materials and Manufacturing Processes, Vol. 15, No. 4, 2000, pp. 503-520.
[9] Chang, K. Y., Song, Y. H., and Lin, T. R., “Analysis of Lapping and Polishing of a Gauge Block”, Int J Adv Manuf Tech., Vol. 20, 2002, pp. 414-419.
[10] Tam, H. Y., Cheng, H. B., and Wang, Y. W., “Removal rate and surface roughness in the lapping and polishing of RB-SiC optical components,” J Mat Process Tech., Vol. 192-193, 2007, pp. 276, 280.
[11] Belkhir, N., Bouzidd, D., Herold, V., “Correlation between the surface quality and the abrasive grains wear in optical glass lapping”, Tiribology International., Vol. 40, 2007, pp. 498-502.
[12] Deshpande, L. S., Raman, S., Sunanta, O., and Agbaraji, C., “Observations in the flat lapping of stainless steel and bronze”, Wear., Vol. 265, 2008, pp. 105-116.
[13] Mohan, R., Ramesh Babu, N., “Experimental investigations on ice bonded abrasive polishing of copper materials”, Materials and Manufacturing Processes., Vol. 25 , No. 12, 2010, pp. 1462-1469.
[14] Mohan, R., Ramesh Babu, N., “Design, development and characterization of ice bonded abrasive polishing process”, International Journal of Abrasive Technology., Vol. 4 , No. 1, 2011, pp. 57-76.
[15] Mohan, R., Ramesh Babu, N., “Ultrafine finishing of metallic surfaces with the ice bonded abrasive polishing process”, Materials and Manufacturing Processes., Vol. 27, 2012, pp. 412-419.
[16] Tsai, M. Y., Chen, C. Y., and He, Y. R., “Polishing Characteristics of Hydrophilic Pad in Chemical Mechanical Polishing Process”, Materials and Manufacturing Processes., Vol. 27, 2012, pp. 650-657.
[17] Tian, Y. B., Zhong, Z. W., Lai, S. T., and Ang, Y. J., “Development of fixed abrasive chemical mechanical polishing process for glass disk substrates”, Int J Adv Manuf Tech., Vol. 68, 2013, pp. 993-1000.
[18] Dong, Z., Cheng, H., “Study on removal mechanism and removal characters for SiC and fused silica by fixed abrasive diamond pellets”, Int J. Mach. Tool Manuf., Vol. 85, 2014, pp. 1-13.
[19] Sushil, M., Vinod, K., and Harmesh, K., “Experimental Investigation and Optimization of Process Parameters of Al/SiC MMCs Finished by Abrasive Flow Machining”, Materials and Manufacturing Processes., Vol. 30, 2015, pp. 902-911.
