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Strength of Materials
Published in: Strength of Materials 3/2012

01-05-2012

Hardenability of steels and alloys as a factor of reducing the metal intensity of industrial structures

Author: É. V. Chechin

Published in: Strength of Materials | Issue 3/2012

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Abstract

The energy method of calculating the strength of steels and alloys is proposed to be used on the basis of the complex of their mechanical properties. The analytical mechanism provides the differentiated approach to determining the safety factors of materials, which in its turn offers the reduction in the metal intensity of structures.
previous article On the structural dependence of the stress–strain diagram parameters and fracture toughness of metastable austenitic steels
next article Progressive failure analysis of glass/epoxy composites at low temperatures

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Literature
1.
É. V. Chechin, “Use of strain and low-temperature hardening of materials with large energy absorption reserves for increasing allowable stresses,” in: Strength of Materials and Structures at Low Temperatures [in Russian], Naukova Dumka, Kiev (1984), pp. 249–258.
2.
É. V. Chechin, “Systematization of constructional materials based on the level of strain hardening and development of an energy method of determination of the allowable stresses and safety factors. Pt 1. Energy parameters and the universal strain hardenability diagram. Pt. 2. Determination of allowable stresses taking into consideration the reserves of strain hardening materials,” Strength Mater., 24, No. 2, 170–176, 177–186 (1992).
3.
E. V. Chechin, “Energy-based method for determination of stresses. Pt. I & II,” Int. J. Press. Vess. Piping, 62, 87–101 (1995).CrossRef
4.
E. V. Chechin, “Reduction of metal consumption in engineering structures attainable by the energy-based method for strength analysis,” Int. J. Press. Vess. Piping, 71, No. 3, 253–261 (1997).CrossRef
5.
É. V. Chechin, “Strength calculations of the structures accounting for plasticity and hardening of metals,” Probl. Mashinostr. Nadezhn. Mashin, No. 2, 41–52 (1999).
6.
E. V. Chechin, “Saving ductile metals in strength analysis by the energy-based method for structures in mechanical and civil engineering,” in: Advances in Fracture Research (Proc. of ICF 10), Paper 95, Elsevier, Oxford (2001).
7.
E. V. Chechin, “A way to put an end to an unjustified overconsumption of plastic steels and alloys in industry,” in: Proc. 11th Int. Conf. on Fracture (March 20–25, 2005, Turin).
8.
É. V. Chechin, Strength and Metal Intensity of Shell Structures at Cryogenic Temperatures [in Russian], Institute of Problems of Strength, National Academy of Sciences of Ukraine, Kiev (2008).
Metadata
Title
Hardenability of steels and alloys as a factor of reducing the metal intensity of industrial structures
Author
É. V. Chechin
Publication date
01-05-2012
Publisher
Springer US
Published in
Strength of Materials / Issue 3/2012
Print ISSN: 0039-2316
Electronic ISSN: 1573-9325
DOI
https://doi.org/10.1007/s11223-012-9383-4

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