Infektsionnye Bolezni.
Dynasty Publishing House.
Vol. 22.
2024.
P. 50-60
Comparison of Through-Thickness Damage Distributions in Sheets in Bending under Tension Predicted by Several Empirical Ductile Fracture Criteria
This paper develops a method for calculating the throughthickness distribution of damage parameters in plane-strain bending under tension, employing uncoupled damage mechanics models. The material is supposed to be elastic/plastic, strain hardening. No restrictions are imposed on the strain hardening law. Also, no restriction is imposed on the damage evolution law. The solution is facilitated by using a Lagrangian coordinate system. Specific calculations are provided for several widely used damage evolution laws. The solution found can be used to identify damage evolution laws with no finite element analysis, which is a great advantage for the damage evolution laws involving several constitutive parameters. © 2024 IEEE.
Authors
Alexandrov S.
,
Rynkovskaya M. ,
Averbukh L. ,
Tikhonov G.
Conference proceedings
Publisher
IEEE Computer Society
Language
English
Pages
450-453
Status
Published
Year
2024
Organizations
- 1 Peoples' Friendship University of Russia (RUDN University), 6 Miklukho-Maklaya Str., Moscow, 117198, Russian Federation
- 2 Llc 'Digital Platform Element Control', Skolkovo Innovation Center, Bolshoi bldg. 42, p.1.1, Moscow, 121205, Russian Federation
Keywords
Hardening; Bending under tensions; Damage distribution; Damage evolution; Damage parameter; Damage-mechanics models; Ductile fracture criterion; Elastic-Plastic; Evolution law; In-plane strains; Through-thickness; Ductile fracture
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Voprosy Ginekologii, Akusherstva i Perinatologii.
Dynasty Publishing House.
Vol. 23.
2024.
P. 25-31