Mechanics of Solids
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Issues > Archive of Issues > 2017-5 > pp.524-529

Archive of Issues

Total articles in the database:		12804
In Russian (Изв. РАН. МТТ):		8044
In English (Mech. Solids):		4760

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P.S. Bychkov, V.M. Kozintsev, A.V. Manzhirov, and A.L. Popov, "Determination of Residual Stresses in Products in Additive Production by the Layer-by-Layer Photopolymerization Method," Mech. Solids. 52 (5), 524-529 (2017)

Year

2017

Volume

Number

Pages

524-529

DOI

10.3103/S0025654417050077

Title

Determination of Residual Stresses in Products in Additive Production by the Layer-by-Layer Photopolymerization Method

Author(s)

P.S. Bychkov (Ishlinsky Institute for Problems in Mechanics of the Russian Academy of Sciences, pr. Vernadskogo 101, str. 1, Moscow, 119526 Russia)
V.M. Kozintsev (Ishlinsky Institute for Problems in Mechanics of the Russian Academy of Sciences, pr. Vernadskogo 101, str. 1, Moscow, 119526 Russia)
A.V. Manzhirov (Ishlinsky Institute for Problems in Mechanics of the Russian Academy of Sciences, pr. Vernadskogo 101, str. 1, Moscow, 119526 Russia; Bauman Moscow State Technical University, ul. 2-ya Baumanskaya 5 str. 1, Moscow, 105005 Russia; National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Kashirskoe sh. 31, Moscow, 115409 Russia; Institute of Mechanics of the National Academy of Sciences of the Republic of Armenia, pr. Marshala Bagramyana 24B, Erevan, 375019 Republic of Armenia)
A.L. Popov (Ishlinsky Institute for Problems in Mechanics of the Russian Academy of Sciences, pr. Vernadskogo 101, str. 1, Moscow, 119526 Russia; Moscow State (National Research) University of Civil Engineering, Yaroslavskoe sh. 26, Moscow, 129337 Russia, popov@ipmnet.ru)

Abstract

A computational-experimental model for identifying the residual (shrinkage) stresses arising in parts after their additive manufacturing by the layer-by-layer photopolymerization method is given. The model is based on an analysis of flexible shrinkage strains of a series of specimens shaped as plate-strips with the same parameters but with different polymerization time which is prescribed in their manufacturing on the 3d-printer.

Keywords

additive technologies, residual stresses, photo polymerization, shrinkage strains

References

1.	A. Gebhardt and J. S. Noetter, Additive Manufacturing: 3D Printing for Prototyping and Manufacturing (Carl Hanser Verlag, Munich, 2016).
2.	I. Gibson, D. W. Rosen, and B. Stucker, Additive Manufacturing Technologies: Rapid Prototyping to Direct Digital Manufacturing (Springer Verlag, LCC, New York, 2010).
3.	M. A. Zlenko, M. V. Nagaitzev, and V. M. Drobysh, Additive Technologies in Mechanical Engineering (Izdat. FGUP "NAMI", Moscow, 2015) [in Russian].
4.	N. Kh. Arutyunyan, A. V. Manzhirov, and V. E. Naumov, Contact Problems of Mechanics of Growing Bodies (Nauka, Moscow, 1991) [in Russian].
5.	A. V. Manzhirov, "The General Non-Inertial Boundary-Value Problem for a Viscoelastic Ageing Solid with Piecewise-Continuous Accretion," Prikl. Mat. Mekh. 59 (5), 836-848 (1995) [J. Appl. Math. Mech. (Engl. Transl.) 59 (5), 805-816 (1995)].
6.	A. V. Manzhirov, "Mechanical Design of Viscoelastic Parts Fabricated Using Additive Manufacturing Technologies," in Lecture Notes in Engineering and Computer Science: Proceeding of the World Congress on Engineering 2015, WCE2015, July 1-3, London, UK, Vol. II (IAENG, London, 2015), pp. 710-714.
7.	A. V. Manzhirov and D. A. Parshin, "Arch Structure Building by an Additive Manufacturing Technology under the Action of Gravity Force," Izv. Ross. Akad. Nauk. Mekh. Tverd. Tela, No. 5, 94-107 (2015) [Mech. Solids (Engl. Transl.) 50 (5), 559-570 (2015)].
8.	A. V. Manzhirov and D. A. Parshin, "Influence of the Erection Regime on the Stress Strain State of a Viscoelastic Arced Structure Erected by Additive Technology under the Force of Gravity," Izv. Ross. Akad. Nauk. Mekh. Tverd. Tela, No. 6, 69-91 (2015) [Mech. Solids (Engl. Transl.) 50 (6), 657-675 (2015)].
9.	A. V. Manzhirov and D. A. Parshin, "Application of Prestressed Structural Elements in the Erection of Heavy Viscoelastic Arched Structures with the Use of an Additive Technology," Izv. Ross. Akad. Nauk. Mekh. Tverd. Tela, No. 6, 93-104 (2016) [Mech. Solids (Engl. Transl.) 50 (6), 692-700 (2016)].
10.	A. V. Manzhirov, "A Method for Mechanical Design of AM Fabricated Viscoelastic Parts," in Transactions on Engineering Technologies (Springer, Singapore, 2016), pp. 223-235.
11.	A. V. Manzhirov, "Fundamentals of Mechanical Design and Analysis for AM Fabricated Parts," Proc. Manufact. 7, 59-65 (2016).
12.	A. V. Manzhirov, "Advances in the Theory of Surface Growth with Applications to Additive Manufacturing Technologies," Proc. Engng 173, 11-16 (2017).
13.	I. A. Birger, Residual Stresses (Mashinostroenie, Moscow, 1963) [in Russian].
14.	G. N. Chernyshov, A. L. Popov, V. M. Kozintsev, and I. I. Ponomarev, Residual Stresses in Deformable Solids (Fizmatlit, Moscow, 1996) [in Russian].
15.	R. V. Goldstein, V. M. Kozintsev, A. V. Podlesnykh, et al., "A Method of Electronic Speckle Pattern Interferometry for Solving Some Inverse Problems of Mechanics of Elastic Bodies," Izv. Ross. Akad. Nauk. Mekh. Tverd. Tela, No. 2, 5-14 (2006) [Mech. Solids (Engl. Transl.) 41 (2), 1-9 (2006)].
16.	Z. Chen, G. S. Huang, I. Trase, et al., "Mechanical Self-Assembly of a Strain-Engineered Flexible Layer: Wrinkling, Rolling and Twisting," Phys. Rev. Appl. 5, 017001 (2016).
17.	Z. Zhao, J. Wu, X. Mu, et al., "Origami by Frontal Photo Polymerization," Sci. Adv., No. 3, e1602326 (2017).
18.	V. I. Feodosiev, Strength of Materials, Manual for Higher Educational Institutions (Izdat. Bauman MGTU, Moscow, 1999) [in Russian].

Received

28 June 2017

Link to Fulltext

https://link.springer.com/article/10.3103/S0025654417050077

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