Abstract
According to the critical size ratio for the characteristic particle size to film thickness between grinding wheel and workpiece, the machining mechanisms in abrasive jet precision finishing with grinding wheel as restraint of advanced engineering ceramic can be categorized into three states, namely, two-body lapping, three-body polishing, abrasive flow jet machining. The critical condition of two-body lapping to three-body polishing transition was analyzed. The single particle material removal modes of two-body lapping, three-body polishing, abrasive flow jet machining were proposed. Experiments were conduced in the refitted surface grinder for academic modes verification. It was found that experimental results were agreement with theoretical modes and the modes validity were verified.
This project is supported by the National Natural Science Foundation of China under the grant No.50475052.
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LI Chang-he, Cai Guang-qi and LI Qi, Generating mechanism of surface morphology finished by abrasive jet with grinding wheel as restraint, Journal of Northeastern University (natural science), 2005,vol.26(6), pp.578–581.
C.H. Li, G.Q. Cai and S.C. Xiu, Material removal model and experimental verification for abrasive jet precision finishing with wheel as restraint, Key Engineering Materlials, 2006, vols. 304–305, pp. 555–559.
Chang Y P, Hashimura M, Dornfeid D A, An investigation of material removal mechanisms in lapping with grain size transition, Journal of Manufacturing Science and Engineering, 2000, vol.122, pp.413–419
Chauhan R, Ahn Y, Chandrasekar S, Mechanisms of abrasive wear in lubricated contacts, Wear, 1993, vols. 162–164, pp.246–257
Buijs M, Korpel-van Houten K, Three-body abrasion of brittle materials as studied by lapping, Wear, 1993, vol.166, pp.237–245
Li Changhe, Cai Guangqi and Yuan Suoxian, Material removal model for abrasive jet precision finishing restricted by abrasive wheel, Transactions of the Chinese Society for Agricultural Machinery, 2005, vol.36(11), pp. 132–135.
Li Changhe, Cai Guangqi, Li Qi, et al. Investigation on material removal mechanism for abrasive jet precision finishing with grinding wheel as restraint, China Mechanical Engineering, 2005, vol. 16(23), pp.2116–2119
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Li, C., Cai, G. (2006). Material Removal Mechanisms Analysis in the Finishing Machining of Engineering Ceramics. In: Wang, K., Kovacs, G.L., Wozny, M., Fang, M. (eds) Knowledge Enterprise: Intelligent Strategies in Product Design, Manufacturing, and Management. PROLAMAT 2006. IFIP International Federation for Information Processing, vol 207. Springer, Boston, MA . https://doi.org/10.1007/0-387-34403-9_102
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DOI: https://doi.org/10.1007/0-387-34403-9_102
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