Design simulation of modular abrasive tool

OBRABOTKAMETALLOV Vol. 26 No. 2 2024 173 EQUIPMENT. INSTRUMENTS 38. Kozlov A.M., Kosykh A.E. Opredelenie kriticheskoi shiriny segmenta sbornykh preryvistykh shlifoval’nykh krugov [Defi nition of critical width in segment of collection intermittent grinding disks]. Fundamental’nye i prikladnye problemy tekhniki i tekhnologii = Fundamental and Applied Problems of Engineering and Technology, 2011, no. 4-3, pp. 19–23. 39. DombrachevA.N. Razrabotka avtomatizirovannoi sistemy opredeleniya slozhnosti i prognoznoi trudoemkosti izgotovleniya detalei instrumental’nogo proizvodstva. Diss. kand. tekhn. nauk [Development of an automated system for determining the complexity and predictive labor intensity of manufacturing parts for tool production. PhD eng. sci. diss.]. Izhevsk, 2005. 128 p. 40. Goloburdin D.A., Kozlov A.M. [Analysis of abrasive intermittent cutting tools]. Za nami budushchee: vzglyad molodykh uchenykh na innovatsionnoe razvitie obshchestva [Proceedings of the All-Russian youth scientifi c conference “The future is ours: the view of young scientists on the innovative development of society”]. Kursk, 2020, vol. 3, pp. 227–231. (In Russian). 41. Rechenko D.S. Povyshenie kachestva vysokoskorostnogo zatachivaniya tverdosplavnykh instrumentov almaznymi krugami s preryvistoi poverkhnost’yu. Diss. kand. tekhn. nauk [Improving the quality of high-speed sharpening of carbide tools with diamond wheels with an intermittent surface. PhD eng. sci. diss.]. Omsk, 2009. 162 p. 42. Lukina S.V. Povyshenie eff ektivnosti proektirovaniya sbornogo rezhushchego instrumenta na baze ustanovlennykh vzaimosvyazei konstruktorsko-tekhnologicheskikh i ekonomicheskikh reshenii. Diss. dokt. tekhn. nauk [Increasing the effi ciency of designing prefabricated cutting tools on the basis of established relationships between design, technological and economic solutions. Dr. eng. sci. diss.]. Moscow, 1999. 448 p. 43. Lyalin V.E. Matematicheskie modeli i intellektual’nye informatsionnye tekhnologii dlya povysheniya eff ektivnosti organizatsii proizvodstva. Avtoref. diss. dokt. ekon. nauk [Mathematical models and intelligent information technologies for increasing the effi ciency of production organization. Author’s abstract of Dr. of econ. Sci. diss.]. Moscow, 2006. 48 p. 44. Rychkov D.A. Sovershenstvovanie protsessa podgotovki rezhushchego instrumenta pri frezerovanii steklotekstolita. Diss. kand. tekhn. nauk [Improving the process of preparing cutting tools when milling fi berglass. PhD eng. sci. diss.]. Irkutsk, 2011. 190 c. 45. ChemborisovN.A. Profi lirovaniediskovykh rezhushchikh instrumentovdlyaobrabotki vintovykhpoverkhnostei tsilindricheskikh i konicheskikh detalei. Diss. doct. tekhn. nauk [Profi ling of disk cutting tools for processing screw surfaces of cylindrical and conical parts: Dr. tech. sci. diss.]. Kazan, 2003. 399 p. 46. Emel’yanov S.G., Kuts V.V. Grafovye modeli konstruirovaniya i izgotovleniya sbornykh diskovykh frez [Graph models for the design and manufacture of prefabricated disk cutters]. STIN = Russian Engineering Research, 1999, no. 5, pp. 20–22. (In Russian). 47. Smirnov V.M., Shalunov E.P., Timofeev D.A Svyazka na osnove medi dlya izgotovleniya almaznogo instrumenta [Copper-based bond for making diamond tools]. Patent RF, no. 2644225 C1, 2018. 48. GOST R 52381–2005 (ISO 8486-1:1996, ISO 6344-2:1998, ISO 9138:1993, ISO 9284:1992). Materialy abrazivnye. Zernistost’i zernovoi sostav shlifoval’nykh poroshkov. Kontrol’zernovogo sostava [State standard 52381– 2005. Abrasive materials. Grain and grain size distribution of grinding powders. Test of grain size distribution]. Moscow, Standartinform Publ., 2005. 15 p. 49. GOST 21445–84. Materialy i instrumenty abrazivnye. Terminy i opredeleniya [State standard 21445–84. Abrasive materials and tools. Terms and defi nitions]. Moscow, Standartinform Publ., 1984. 26 p. 50. GOST R 52781–2007. Krugi shlifoval’nye i zatochnye. Tekhnicheskie usloviya [Grinding and tool-grinding wheels. Specifi cations]. Moscow, Standartinform Publ., 2020. 32 p. 51. Rechenko D.S., Nurtdinov Yu.R., Popov A.Yu. Shlifoval’nyi krug dlya almazno-abrazivnoi obrabotki [Grinding wheel for diamond abrasive machining]. Patent RF, no. 55665 U1, 2006. 52. Popov A.Yu., Rechenko D.S., Averkov K.V. Shlifoval’nyi krug dlya vysokoskorostnoi obrabotki [Grinding wheel for high speed machining]. Patent RF, no. 101666 U1, 2011. Confl icts of Interest The authors declare no confl ict of interest. © 2024 The Authors. Published by Novosibirsk State Technical University. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0).

RkJQdWJsaXNoZXIy MTk0ODM1