3D simulation basics with the use of Autodesk Fusion 360 CAD system
| Authors: Dolova A.A., Konstantinidi A.Yu., Traore Dauda Amara |  |
| Published in issue: #10(27)/2018 | |
| DOI: 10.18698/2541-8009-2018-10-389 | |
Category: Informatics, Computer Engineering and Control | Chapter: System Analysis, Control, and Information Processing, Statistics |
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Keywords: 3D-simulation, computer-aided design system, software, case detail, Autodesk, Fusion 360, design, numerically controlled machine tool |
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| Published: 17.10.2018 | |
Analysis of Autodesk Fusion 360 CAD system is presented, detailed description of interface and main functions of software is given. Main features of CAD/CAE/CAM systems are considered, their significance for modern engineering is indicated. Basic concepts and definitions necessary for study of 3D-simulation systems are given. Starting process in Fusion 360 software is described step-by-step, overview of interface is presented, main advantages of software compared to other similar software tools are shown. As an experimental solution, a case detail has been developed that includes the main geometric primitives with a detailed analysis of the model building process.
References
[1] Bilibin K.I. Osnovy proektirovaniya prisposobleniy [Fundamentals of attachment engineering]. Moscow, Bauman Press, 2006, 52 p.
[2] Arabov D.I., Vlasov A.I., Gridnev V.N., Grigor’yev P.V. The concept of digital tool production (FAB LAB) for prototyping of products of electronic equipment. Mezhdunarodnyy nauchno-issledovatel’skiy zhurnal [International Research Journal], 2016, no. 5-3(47), pp. 23–34.
[3] Vlasov A.I., Ganev Yu.M., Karpunin A.A. 5S-effective workplace creation technology in lean manufacturing system. Informatsionnye tekhnologii v proektirovanii i proizvodstve [Information Technologies of CAD/CAM/CAE], 2016, no. 1(161), pp. 65–68.
[4] Arabov D.I., Veryasova A.Yu., Gridnev V.N. Kompleksnoe maketirovanie uzlov vychislitel’noy tekhniki s ispol’zovaniem infrastruktury tsifrovogo proizvodstva (FAB-LAB) v usloviyakh skvoznogo obespecheniya kachestva [Complex prototyping of computer components using digital production infrastructure (FAB-LAB) in quality-controlled environment]. Tr. mezhd. simp. Nadezhnost’ i kachestvo [Proc. Int. Symp. Reliability and Quality], 2016, no. 1, pp. 189–192.
[5] Arabov A.A., Vlasov A.I., Gridnev V.N., Zot’yeva D.E., Markelov V.V. FAB-LAB tekhnologii bystrogo prototipirovaniya izdeliy elektronnoy tekhniki [FAB-LAB technologies of fast electronic products prototyping]. Mat. II mezhd. nauch.-prakt. konf. “Sovremennye nauchnye issledovaniya: metodologiya, teoriya i praktika” [Proc. II Int. Sci.-Pract. Conf. “Modern Scientific Studies: Methodology, Theory and Practice”]. Nizhnyy Novgorod, TsSRNI publ., 2014, pp. 157–161.
[6] Pogorelov V. AutoCAD 2009: 3D-modelirovanie [AutoCAD 2009: 3D-simulation]. Sankt-Petersburg, BKhV-Peterburg publ., 2009, 400 p.
[7] Poleshchuk N.N. AutoCAD 2007: 2D/3D-modelirovanie [AutoCAD 2007: 2D/3D-simulation]. Moscow, Russkaya redaktsiya publ., 2007, 416 p.
[8] Sazonov A.A. 3D-modelirovanie v AutoCAD [3D-simulation in AutoCAD]. Moscow, DMK publ., 2012, 376 p.
[9] Stremnev A.Yu. Working with 3D models in Fusion 360system – from conception to realization. CAD/CAm/CAe Observer, 2016, no. 5(105), pp. 47–53.
[10] Trubochkina N.K. Modelirovanie 3D-nanoskhemotekhniki [Simulation of 3D nanocircuitry]. Moscow, Binom. Laboratoriya znaniy publ., 2012, 499 p.
[11] Shvemberger S.I., Shcherbakov P.P., Goroncharovskiy V.A. 3ds Max. Khudozhestvennoe modelirovanie i spetsial’nye effekty [3ds Max. Artistic simulation and special effects]. Sankt-Peterburg, BKhV-Peterburg publ., 2006, 320 p.