How to cite this paper
Tsvik, L & Zenkov, E. (2022). A comparative analysis of the stress-strain state of disc specimens in assessing the structural strength of materials.Engineering Solid Mechanics, 10(1), 25-34.
Refrences
Birger, I.A., Shorr, B.F., & Ioselevich, G.B. (1979). Calculation of the strength of machine parts. M.: Mechanical Engineering.
GosNIIV, R. (1996). Standards for the calculation and design of wagons of 1520 mm gauge railways of the Ministry of Railways (non-self-propelled). M.: VNIIZhT.
GOST 25.504-82. (2004). Calculations and strength tests. Methods for calculating the characteristics of fatigue resistance. M., IKP Publishing house of standards,
Kogaev, V.P., Makhutov, N.A., & Gusenkov, A.P. (1985). Calculations of machine parts and structures for strength and durability. Moscow: Machine building.
Kuznetsov, A.M., Livshits, V.I., Tatarinov, V.G. & et al. (1999). Vessels and high-pressure pipelines: Handbook. Irkutsk: Irkutsk Regional Printing House.
Lebedev, A.A., Kovalchuk, B.I. & [et al.] (2003). Mechanical properties of structural materials in a complex stress state. Kiev: In Yure.
Pisarenko, G.S., Yakovlev, A.P., & Matveev V.V. (2008). Handbook on resistance of materials. Kiev: Delta.
Smirnov-Alyaev, G.A. (1968). Mechanical foundations of plastic processing of metals. Engineering methods. L.: Mechanical Engineering.
Tsvik, L.B., Pimshtein, P. G., & Borsuk, E.G. (1978). Experimental studies of the stress-strain state of a multilayer cylinder with a monolithic bushing. Problems of strength, 4, 74–77.
Tsvik, L.B., & Zenkov, E.V. (2015). Determination of strength characteristics of materials of experimental prismatic specimens under the biaxial tension. Bulletin of machine building,1, 42–46.
Tsvik, L.B. (2017). Specimens for mechanical testing of structural steels under cyclic loading. Transport infrastructure of the Siberian region, 2, 834 – 839.
Tsvik, L.B., Zenkov, E.V., Bocharov, I..S., & Elovenko, D.A. (2020). Disc specimen for assessing the structural strength of the material. Patent RF No.2734276, dated 14.10.2020, Bul. No. 29.
Tsvik, L.B., Pykhalov, A.A., Khramenok, M.A. & et al. (2009). Specimen for assessing the strength of a material in a complex stress state. Patent RF No.2360227, dated 27.10.2009, Bul. No. 18.
Vilimok, Ya.A., Nazarov, K.A., & Evdokimov, A.K. (2013). Stress state of flat specimens under the uniaxial and biaxial tension. News of TSTU. Technical science, 11, 388 - 39.
Zenkov, E.V., & Tsvik, L.B. (2015). Formation of divergent testing efforts and experimental evaluation of material strength under biaxial stretching. PNRPU Mechanics Bulletin, 4, 110-120.
Zenkov, E.V., & Tsvik, L.B. (2018). Accuracy improvement for combined static strength criterion for structures under complex loading. Materials Physics and Mechanics, 40, 124-132.
Zenkov, E.V. (2017). Update of the equations of the limit state of the structural material with the realization of their deformation. Journal of Physics: Conference Series, 944, 012128.
Zenkov, E.V., & Tsvik, L.B. (2017). Refinement of the equations of the limiting state of the structure material taking into account the real type of their deformation. Systems. Methods. Technology, 2(34), 28-34.
Zenkov, E.V., Aistov, I.P., & Vansovich, K.A. (2019). Modeling stress state stiffening of the nozzle zone of pressure vessel by the finite element method. AIP Conference Proceedings, 2141, 030042.
Zenkov, E.V., Tsvik, L.B., Pykhalov, A.A. & et al. (2014). Prismatic specimen for assessing the strength of the material. Patent RF No.2516599, dated 20.09.2014, Bul. No. 14.
Zenkov, E.V., Tsvik, L.B., & Pykhalov, A.A. (2011). Discrete modeling of the stress-strain state of flat-cylindrical specimens with grooves as stress concentrators. Bulletin of Irkutsk State Technical University, 7(54), 6-11.
GosNIIV, R. (1996). Standards for the calculation and design of wagons of 1520 mm gauge railways of the Ministry of Railways (non-self-propelled). M.: VNIIZhT.
GOST 25.504-82. (2004). Calculations and strength tests. Methods for calculating the characteristics of fatigue resistance. M., IKP Publishing house of standards,
Kogaev, V.P., Makhutov, N.A., & Gusenkov, A.P. (1985). Calculations of machine parts and structures for strength and durability. Moscow: Machine building.
Kuznetsov, A.M., Livshits, V.I., Tatarinov, V.G. & et al. (1999). Vessels and high-pressure pipelines: Handbook. Irkutsk: Irkutsk Regional Printing House.
Lebedev, A.A., Kovalchuk, B.I. & [et al.] (2003). Mechanical properties of structural materials in a complex stress state. Kiev: In Yure.
Pisarenko, G.S., Yakovlev, A.P., & Matveev V.V. (2008). Handbook on resistance of materials. Kiev: Delta.
Smirnov-Alyaev, G.A. (1968). Mechanical foundations of plastic processing of metals. Engineering methods. L.: Mechanical Engineering.
Tsvik, L.B., Pimshtein, P. G., & Borsuk, E.G. (1978). Experimental studies of the stress-strain state of a multilayer cylinder with a monolithic bushing. Problems of strength, 4, 74–77.
Tsvik, L.B., & Zenkov, E.V. (2015). Determination of strength characteristics of materials of experimental prismatic specimens under the biaxial tension. Bulletin of machine building,1, 42–46.
Tsvik, L.B. (2017). Specimens for mechanical testing of structural steels under cyclic loading. Transport infrastructure of the Siberian region, 2, 834 – 839.
Tsvik, L.B., Zenkov, E.V., Bocharov, I..S., & Elovenko, D.A. (2020). Disc specimen for assessing the structural strength of the material. Patent RF No.2734276, dated 14.10.2020, Bul. No. 29.
Tsvik, L.B., Pykhalov, A.A., Khramenok, M.A. & et al. (2009). Specimen for assessing the strength of a material in a complex stress state. Patent RF No.2360227, dated 27.10.2009, Bul. No. 18.
Vilimok, Ya.A., Nazarov, K.A., & Evdokimov, A.K. (2013). Stress state of flat specimens under the uniaxial and biaxial tension. News of TSTU. Technical science, 11, 388 - 39.
Zenkov, E.V., & Tsvik, L.B. (2015). Formation of divergent testing efforts and experimental evaluation of material strength under biaxial stretching. PNRPU Mechanics Bulletin, 4, 110-120.
Zenkov, E.V., & Tsvik, L.B. (2018). Accuracy improvement for combined static strength criterion for structures under complex loading. Materials Physics and Mechanics, 40, 124-132.
Zenkov, E.V. (2017). Update of the equations of the limit state of the structural material with the realization of their deformation. Journal of Physics: Conference Series, 944, 012128.
Zenkov, E.V., & Tsvik, L.B. (2017). Refinement of the equations of the limiting state of the structure material taking into account the real type of their deformation. Systems. Methods. Technology, 2(34), 28-34.
Zenkov, E.V., Aistov, I.P., & Vansovich, K.A. (2019). Modeling stress state stiffening of the nozzle zone of pressure vessel by the finite element method. AIP Conference Proceedings, 2141, 030042.
Zenkov, E.V., Tsvik, L.B., Pykhalov, A.A. & et al. (2014). Prismatic specimen for assessing the strength of the material. Patent RF No.2516599, dated 20.09.2014, Bul. No. 14.
Zenkov, E.V., Tsvik, L.B., & Pykhalov, A.A. (2011). Discrete modeling of the stress-strain state of flat-cylindrical specimens with grooves as stress concentrators. Bulletin of Irkutsk State Technical University, 7(54), 6-11.