Abstract
This book examines the theoretical foundations of engineering graphics, from the creation of the geometric models to the product design of real objects.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Automation of the designing and preparation production (2002) T-FLEX Parametric CAD (in Russian), Tоp systems, М., p 41
Brailov AY (2002) Interference and problem of the designing in machine building. Proceedings of Odessa Polytechnic University (in Russian), Odessa, ОGPU, 2(18): 21–24
Brailov AY (2007) Computer engineering graphics in the environment of Т-FLEX: Transformations of two-dimensional and three-dimensional models of products (in Russian), Caravella, Kiev, p 176
Brailov AY (2011a) Features of training on engineering graphics in modern conditions. Technical esthetics and design, issue 8 (in Russian), Vipol, К, pp 44–49
Brailov AY (2011b) The structure of algorithm of the solution of positional problems Applied geometry and the engineering graphics, Issue 88 (in Russian), KNUBА, K., pp 100–105
Brailov AY (2012) The structure of algorithm of the construction of development of a surface applied geometry and the engineering graphics, Issue 89 (in Russian), KNUBА, K., pp 94–100
Brailov AY (2013a) The structure of algorithm of the solution of metric problems works of Tavrijsky state agrotechnological university (in Russian), TSATU, Melitopol, SPGM-15, pp 16–24
Brailov AY (2013b) The general algorithm of the solution of typical geometrical problems applied geometry and the engineering graphics, Issue 91 (in Russian), KNUBА, K., pp 32–45
Brailov AY (2013c) Engineering geometry (in Russian), Caravella, Kiev, p 456. (ISBN 978-966-2229-58-5)
Brailov AY (2014a) Algorithm of the constructing of axonometry of products. In: Brailov AY (ed) Modern problems of modeling, Issue 2 (in Russian), МDPU name of Khmelnicki B, Melitopol, pp 9–21
Brailov AY (2014b) A hypothesis about the correspondence of the algorithm of the constructing of axonometry of products to the general approach to the solution of typical engineering geometrical problems. In: Brailov AY (ed) Building and technogenic safety, Issue 50 (in Russian), NAPKS, Simferopol, pp 34–44
Brednyeva VP, Dzhuguryan ТG, Marchenko VS (2008) Engineering graphics (in Russian), Astruprint, Odessa, p 204
Bubennikov AV, Gromov МY (1973) Descriptive geometry (in Russian), Vishaya shkola, М., p 416
Vanin VV, Bliok АV, Gnitecka GО (2003) Appearance of design documentation (in Ukrainian), Caravella, Kiev, p 160
Glazunov ЕА, Chetverukhinн NF (1953) Axonometry (in Russian), М, p 291 с
Ivanov GS (1987) Design of engineering surfaces (in Russian), Mashinostroenie, М., p 192
Ivanov GS (1995) Descriptive geometry (in Russian), Mashinostroenie, М., p 223
Ivanov GS (1998) Theoretical foundations of descriptive geometry (in Russian), Machine building, М., p 158
Ivanov YN, Podkoritov АN, Strigo YS (1962) Descriptive geometry (in Russian), Омsкаya pravda, Омsк, p 232
Mihajlenko VЕ, Kovalyev SN, Sedleckaya NI et al (1989) Engineering geometry with element of the theories of parameterization (in Russian), UМК VО, К., p 83
Kotov II, Polozov VS, Shirokova LV (1977) Algorithms of computer graphics (in Russian), Mashinostroenie, М., p 231
Kolotov SМ, Dolski ЕЕ, Mihajlenko VЕ et al (1961) Course of descriptive geometry (in Russian), Gosstrojizdat USSR, К., p 314
Tevlin АМ, Ivanov GS, Nartova LG et al (1983) Course of descriptive geometry on the ground of computer. In: Tevlin АМ (ed) (in Russian), Vishaya shkola, М., p 175
Levicki VS (1988) Machine-building drawing (in Russian), Vishaya shkola, М., p 351
Marchenko VS (2008) Engineering graphics (in Ukrainian), Astruprint, Odessa, p 168
Mihajlenko VE, Vanin VV, Kovalyev SN (2013) Engineering and computer graphics. In: Mihajlenko VE (ed) (in Russian), Karavella, K., p 328
Mihajlenko VE (2001) Engineering and computer graphics. In: Mihajlenko VE, Najdish VМ, Podkorytov AN, Skidan ІА (in Russian), Vishcha shkola, Kiyv, p 350
Mihajlenko VE (2002) Problems in the engineering and computer graphics. In: Mihajlenko VE, Najdish VМ, Podkorytov AN, Skidan ІА (in Russian), Vishcha Shkola, Kiyv, p 159
Mihajlenko VE, Najdish VМ (1998) Explanation terms for applied geometry, engineering and computer graphics (in Ukrainian), Urozhaj, К., p 200
Mihajlenko VE, Ponomaryev АМ (1990) Engineering graphics (in Russian), Vishcha shkola, К., p 303
Podkorytov AN, Galzman EG, Perevalov VF (1993) Lectures on engineering graphics (with structurally logic schemes and algorithms of graphic constructions in solving typical problems) for students of non-mechanical specialties (in Russian), ОSPU, Odessa, p 83
Romanicheva EТ, Sokolova ТY, Shandurina GF (2001) Engineering and computer graphics (in Russian), DМК Press, М., p 592
Russian complex of the programs T-FLEX CAD/CAM/CAE/PDM (2005) (in Russian), Tоp systems, М., p 52
Rizhov NN (1983) Main positional problems (in Russian), MADI, М., p 38
Rizhov NN (1988) Parametric geometry (in Russian), МАDI, М., p 63
Fedorenko VА, Shoshin АI (1992) Guide to machine-building drawing (in Russian), Mashinostroenie, Leningrad, p 416
Frolov SА (1978) Descriptive geometry (in Russian), Mashinostroenie, Moscow, p 240
Brailov AY (1998) The exclusion method of interference in conjugated helicoids. Proceedings of the eighth international conference on engineering design graphics and descriptive geometry, ISGG, Texas, vol. 2, pp 443–445
Brailov AY (1999) Physical constraints in the control of chip breakability. ASME J Manuf Sci Eng, MED, Nashville, vol. 10, pp 389–396
Brailov AY, Tigaryev VM (2000) Graphic method of determination of ranges of a modification of parameters of complicated movements. Proceedings of the ninth international conference on engineering design graphics and descriptive geometry, ISGG, Johannesburg, vol. 2. pp 412–416
Brailov AY (2002) Interference in design. Proceedings of the tenth international conference on geometry and graphics, ISGG, Kiev, vol. 1, pp 84–88
Brailov AY (2004) Designing using T-FLEX CAD. Proceedings of the eleventh international conference on geometry and graphics, ISGG, Guangzhow, pp 397–402
Brailov AY (2006) Development of a parametrical three–dimensional model of a product. Proceedings of the twelfth international conference on geometry and graphics, ISGG, Salvador, p A19
Brailov AY (2008) A theoretical approach to transformations of two-dimensional and three-dimensional models of the product. Proceedings of the thirteenth international conference on geometry and graphics, ISGG, Dresden, pp 58–59
Brailov AY (2010) Fundamental principles of design and technological development of an engineering product. Proceedings of the fourteenth international conference on geometry and graphics, ISGG, Kyoto, pp 324–325
Brailov AY (2011a) Principles of product development. Proceedings of the eleventh international conference engineering graphics BALTGRAF11, Tallinn University of Technology, IAB, Tallinn, pp 95–104
Brailov AY (2011b) Principles of design and technological development of product. Int J Adv Mach Form Oper. International Science Press (ISP), Detroit, 3(1):11–17
Brailov AY (2012) Laws of projective connections. Proceedings of the fifteenth international conference on geometry and graphics, ISGG, Montreal, pp 121–122
Brailov AY (2014) The general approach to the solution of typical engineering geometrical problems. Proceedings of the sixteenth international conference on geometry and graphics, Innsbruck university press, Innsbruck, ISGG, pp 444–458, ISBN 978-3-902936-46-2
Cardone V, Iannizzaro V, Barba S, Messina B (2012) Computer aided descriptive geometry. Proceedings of the fifteenth international conference on geometry and graphics, ISGG, Montreal, pp 100–109
Cucakovic AA, Teofilovic NK, Jovic BS (2014) Descriptive geometry education by using multimedia tools. Proceedings of the 16th international conference on geometry and graphics, Innsbruck, pp 262–265
Honma IA (2012) Trial with teaching materials on descriptive geometry by using CAD for students with hearing impairments. Proceedings of the fifteenth international conference on geometry and graphics, ISGG, Montreal, pp 296–301
Ohtsuki M, Ohtsuki A (2012) Descriptive geometry and graphical user interface. Proceedings of the fifteenth international conference on geometry and graphics, ISGG, Montreal, pp 563–568
Ryan DL (1992) CAD/CAE descriptive geometry, CRC Press, Boca Raton, p 209
Schmitt F (2004) Descriptive geometry and 3D-CAD. Proceedings of the eleventh international conference on geometry and graphics, ISGG, Guangzhow, pp 257–262
Stachel H (2006) Descriptive geometry meets computer vision—the geometry of multiple images. Proceedings of the twelfth international conference on geometry and graphics, ISGG, Salvador, p T30
Suzuki K (2014) Traditional descriptive geometry education in 3D-CAD/CG Era. J Geom Graph, 18(2): 249–258
Volkov VY, Yurkov VY, Panchuk K, Ilyasova O, Kaygorodtseva N, Yakovenko K (2012) The innovative paradigm of teaching in descriptive geometry. Proceedings of the fifteenth international conference on geometry and graphics, ISGG, Montreal, pp 778–787
Weiss G (2012) Is advanced elementary geometry on the way to regain scientific terrain? Proceedings of the fifteenth international conference on geometry and graphics, ISGG, Montreal, pp 793–804
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2016 Springer International Publishing Switzerland
About this chapter
Cite this chapter
Brailov, A.Y. (2016). Conclusion and Summary. In: Engineering Graphics. Springer, Cham. https://doi.org/10.1007/978-3-319-29719-4_12
Download citation
DOI: https://doi.org/10.1007/978-3-319-29719-4_12
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-29717-0
Online ISBN: 978-3-319-29719-4
eBook Packages: EngineeringEngineering (R0)