Obrabotka Metallov 2014 No. 4

ОБРАБОТКА МЕТАЛЛОВ № 4 (65) 2014 28 ОБОРУДОВАНИЕ. ИНСТРУМЕНТЫ References 1. Aksenov V.V. Nauchnye osnovy geovinchesternoi tekhnologii provedeniya gornykh vyrabotok i sozdaniya vin- topovorotnykh agregatov. Diss. dokt. tekhn. nauk [Scientific bases geowinchester technology of mine working and creating of pivoted screw aggregates. Dr. eng. sci. diss.]. Kemerovo, 2004. 304 p. 2. Aksenov V.V. Geovinchesternaya tekhnologiya provedeniya gornykh vyrabotok [Geowinchester technology of mine working]. Kemerovo, ICC SB RAS Publ., 2004. 263 p. 3. Gorbunov V.F., Eller A.F., Aksenov V.V., Nagornyi V.D., Savel’ev Yu.P. Razrabotka i ispytanie shchitovogo vrashchayushchegosya prokhodcheskogo agregata ELANG [Development and testing of the shield tunneling ma- chine rotating “Elango”]. Shakhtnoe stroitel’stvo – Mine Construction , 1985, no. 6, pp. 8–11. 4. Gorbunov V.F., Eller A.F., Aksenov V.V. Razrabotka i shakhtnye ispytaniya vrashchayushchegosya prokhodcheskogo agregata ELANG [Development and testing of a rotating shaft of the tunnel aggregate “Elango”]. UGOL – Coal , 1989, no. 9, pp. 33–34. 5. Eller A.F., Aksenov V.V., Gorbunov V.F., Filatov A.A. Vintopovorotnyi agregat dlya shchitovoi prokhodki na- klonnykh vyrabotok na shakhtakh assotsiatsii “Leninskugol’” [Screw-Pivoting aggregate for shield driving inclined workings in the mines of the association “Leninskugol”]. UGOL – Coal , 1992, no. 9, pp. 10–12. 6. Kogan B.I. Tekhnologicheskoe obespechenie kachestva gornykh mashin i instrumentov [Technological quality assurance for mining machines and tools]. Kemerovo, Kuzbassvuzizdat Publ., 1996. 259 p. 7. Kogan B.I., Drygin M.Yu. Remontno-tekhnologicheskii blok dlya obespecheniya kachestva montazha krup- notonazhnykh uzlov gornykh mashin [The repair and technological unit for support of mounting of large-capacity assemblies of mountain machines]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) – Metal Working and Material Science , 2012, no. 4 (57), pp. 15–18. 8. Camelio J.A., Hu S.J., Ceglarek D. Impact of fixture design on sheet metal assembly variation. Journal of Manufacturing Systems , 2004, vol. 23, iss. 3, pp. 182–193. doi: 10.1016/S0278-6125(05)00006-3 9. Aksenov V.V., Efremenkov A.B., Beglyakov V.Yu., Blashchuk M.Yu., Timofeev V.Yu, Sapozhkova A.V. Raz- rabotka trebovanii k osnovnym sistemam geokhoda [Requirements to Main Systems of Geohod]. Gornoe oborudo- vanie i elektromehanika – Mining Equipment and Electromechanics , 2009, no. 5, pp. 3–7. 10. Aksenov V.V., Efremenkov A.B., Beglyakov V.Yu., Burkov P.V., Blashchuk M.Yu., Sapozhkova A.V. Kom- ponovochnye resheniya mashin dlya provedeniya gornykh vyrabotok na osnove geovinchesternoi tekhnologii [Lay- out solutions for mining machinery based on screw drilling technology]. Gornyi informatsionno-analiticheskii byul- leten’ – Mining information-analytical bulletin , 2009, no. 1, pp. 251–259. 11. Geohod. Technical project. Explanatory note no. FYuRA. 612322.401.0.00.00.000. Yurga, UTI TPU Publ., 2014. 238 p. (In Russian) 12. Lowth S., Axinte D.A. An assessment of “variation conscious” precision fixturing methodologies for the control of circularity within large multi-segment annular assemblies. Precision Engineering , 2014, vol. 38, iss. 2, pp. 379–390. doi: 10.1016/j.precisioneng.2013.12.004 13. Hussain T., Yang Z., Popov A.A., McWilliam S. Straight-Build Assembly Optimization: A Method to Mini- mize Stage-by-Stage Eccentricity Error in theAssembly ofAxisymmetric Rigid Components (Two-Dimensional Case Study). ASME Journal of Manufacturing Science and Engineering , 2011, vol. 133, iss. 3, pp. 031014/1–031014/9. doi:10.1115/1.4004202 14. Liu T., Wang M.Y. An Approximate Quadratic Analysis of Fixture Locating Schemes. Proceedings of 7th International Conference on Automation Technology “Automation 2003”, Chia-Yi, Taiwan, September 2003, pp. 527–532. 15. Memon M., Hussain T., Memon Z.A. Minimizing Assembly Errors by Selecting Optimum Assembly Se- quence in the Assembly of a Rigid Circular Structure. Mehran University Research Journal of Engineering & Tech- nology , 2012, vol. 31, iss. 4, pp. 743–754. Funding The work was financially supported by the Ministry of Education and Science of the Russian Federation (Public contract no. 02.G25.31.0076). Received 25 September 2014 Revised 23 October 2014 Accepted 03 November 2014

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