Abstract
The paper presents a newly developed calculation method for a new shock–vibration mechanism of composite materials compaction. Designing any mechanism is a complex process that requires a design engineer to have extensive and profound knowledge. However, it is not always possible to calculate the optimal parameters of the mechanism, due to the fact, that it is necessary to carry out many cumbersome calculations. With all this, depending on the technical specifications, the best options may vary. The labor costs for the design are colossal, and engineer is not always able to choose the most optimal parameters. Therefore, we created a program for automatic calculation the parameters of a mechanism. This program can be used both for calculating four-link mechanisms and for other articulated link mechanisms. This program is actively used in SUSU at the Department of Wheeled and Tracked Vehicles. The main advantages of the program are ease of use, graphical display of the mechanism, visualization of its operation, parametric optimization, which allows you to set intervals to the source data and get large number of solutions, from which it is possible to choose the most optimal one. The program includes a mathematical model of geometry calculation, kinematics and force calculation of the mechanism.
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References
Novikov AN (1979) Machines for the construction of cement concrete pavements, 2nd ed. High School, Moscow, p 256
Tsupikov SG (2005) Handbook of the road master. Construction, operation and repair of highways. Infra–Engineering, Moscow, p 928
SNiP 3.06.03-85 Highways. Moscow, 1990, p 42
Kondakov SV, Kromsky EI, Asfandiyarov MA (2018) Substantiation of the parameters of the shock–vibration mechanism for compacting a concrete mix for a caterpillar–type concrete paver. In: All–Russian scientific–practical conference, OU VO “South Ural Institute of Management and Economics”, Chelyabinsk, p 182
Kromsky EI, Akhmetshin NI, Yarov BA (2014) Pressing of composite materials using shear deformations. Publishing House SUSU, Chelyabinsk, p 10
Kromsky EI, Bondar VN, Svirid AV (2010) A device for obtaining articles from composite materials. Patent of the Russian Federation RU 93320, Bill. 12
Artobolevsky II (1988) Theory of mechanisms and machines: Proc. for universities. 4th ed. Moscow, p 640
SpurG, Krause FL (1988) Computer-aided design in mechanical engineering. Machinery, translated from German, Moscow, p 312
Uokenbah D (2012) Professional programming for VBA. Dialectics, translated from the English, Moscow, p 944
Boehm BU (1985) Engineering design of software. Translation from English under the editorship of Krasilova AA, Moscow, p 512
Pozhbelko VI, Vinitsky PG, Akhmetshin NI (2003) Theory of Mechanisms and Machines. Tutorial, part 1. Chelyabinsk, p 108
Pozhbelko VI, Vinitsky PG, Akhmetshin NI (2003) Theory of mechanisms and machines. Tutorial, part 2. Chelyabinsk, p 52
Kromsky EI, Kondakov SV, Asfandiyarov MA (2018) Future development of construction equipment for cement-concrete road pavement. Publishing House SUSU, Chelyabinsk, p 30
Afanasyev AA (1987) Technology of pulsed compaction of concrete mixtures. Stroiizdat, Moscow, p 186
Timofeev YL (2002) Technology of vibratory compaction of concrete in the construction of monolithic structures. Textbook for technical universities. Rostov-na-Donu, p 47
Orvis VD (1999) Excel for scientists, engineers and students. Junior, translation from English, Moscow, p 528
Timofeev GA (2010) Theory of mechanisms and machines. Course of Lectures, Moscow, p 351
Kromsky E, Bazanov AA, Nemykin AA (2018) Concrete paver. Patent of the Russian Federation RU 176735, Bill. 01
Zubkin VE, Konovalov VM (2007) RK mini 01. Popular Concr Stud 1(15):73
Zubkin VE, Konovalov VM, Korolev NE (2002) Zone injection of loose media, or how to cost from ordinary land very cheap, strong, warm and fire–resistant houses through the “Russian swing”: Practical Guide. Moscow, p 144
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Asfandiarov, M.A., Kromsky, E.I., Tilloev, K.Z. (2021). Development of Methods for the Computer Calculation of a New Composite Materials Compaction Mechanism. In: Radionov, A.A., Gasiyarov, V.R. (eds) Proceedings of the 6th International Conference on Industrial Engineering (ICIE 2020). ICIE 2021. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-54814-8_8
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DOI: https://doi.org/10.1007/978-3-030-54814-8_8
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