Penza, Penza, Russian Federation
Penza, Penza, Russian Federation
Penza, Penza, Russian Federation
Penza, Penza, Russian Federation
Penza, Penza, Russian Federation
Penza, Penza, Russian Federation
Penza, Penza, Russian Federation
UDK 621.791.13 Сварка взрывом
UDK 620.22 Материалы. Материаловедение
BBK 342 Металловедение
The main study objective is to make a comparative analysis of the effect of reinforcement schemes on the strength index of composite materials with a comparable proportion of the reinforcing component. The tasks to which the paper is devoted are the development of 3 basic reinforcement schemes, computer modeling of the main parameters for explosion welding, static stretching to obtain a strength index. The research methods used are a review of references at the stage of determining the work relevance, computer modeling of explosion welding parameters to obtain a composite and an experiment on a tensiel-testing machine in order to obtain strength values for subsequent comparative analysis and drawing conclusions. The novelty of the work is in testing composite samples with approximately the same proportion of the reinforcing component, so that the main difference should be in the influence of the reinforcement scheme on the strength of the composite. The results of analyzing references show that this study is relevant in the field of composites; the most promising method of increasing the strength of a material is reinforcement of a composite. The experimental results show that with a comparable amount of reinforcing elements in a composite material, the samples with the direction of the reinforcing wire coinciding with the direction of applying the load have the highest strength; when these directions do not fall, the composite material is reinforced slightly, and also tends to fracture along a brittle intermetallic layer; the composite laminated material increases its strength and this increase correlates well with theoretical prediction and the rule of additivity; the composite obtained according to scheme 3 has even higher tensile strength compared with the composite according to scheme 2, this value does not change depending on the direction of load application, as in the case of composite obtained according to scheme 1.
composite, strength, welding, modeling, parameters
1. Karpinos DM, editor. Composite materials: a reference book. Kiev: Naukova Dumka; 1985.
2. Los IS, Rosen AE, Khorin AV. Reinforced composite material with intermetallic hardening obtained by explosion welding. Polzunovsky Almanakh. 2007;1-2:105-106.
3. Rosen AE, Los IS, Kryukov DB. RF Patent No. 2407640 C2 MPK B32B 15/02, C22C 47/20, B23K 20/08. Method of obtaining composite material. 2010 Dec 27.
4. Pervukhin LB, Rosen AE, Kryukov DB. Metal composite materials reinforced with intermetallic strain-hardening elements. Metallurg. 2015;10:74-77.
5. Kryukov DB, Pryshchak AV, Guskov MS. Study of the influence of reinforcing elements configuration on the strength properties of composite materials in titanium-aluminum system. University Proceedings. Volga Region. Technical Sciences. 2014;4(32):112-119.
6. Guskov MS. Making a high-strength composite titanium-aluminum material with a perforated metal layer and an oxide-ceramic coating [dissertation]. [Russian Federation]: 2015.
7. Kryukov DB, Pryshchak AV, Guskov MS. Development of a new composite reinforced material of the titanium-aluminum system in SolidWorks program. Collection of Papers of VIII International Scientific and Practical conference, April 28-29, 2014: Systems of Design, Modeling, Production Preparation and Project Management of CAD/CAM/CAE/PDM. Penza: Volga Dom Znaniy; 2014.
8. Rosen AE, Kryukov DB, Kirin EM. RF Patent No. 2522505 C1 MPK B32B 7/04, B32B 15/01, B23K 20/08. Method of obtaining composite material. 2014 Jul 20.
9. Pervukhin LB, Kazantsev SN, Kryukov DB. RF Patent No. 2606134 C MPK B23K 20/08, B32B 7/04. Method of obtaining composite material. 2017 Jan 10.
10. Goldman AYa. Prediction of deformation and strength properties of polymer and composite materials. Leningrad: Khimiya; 1988.
11. Amir Hussein Assari, Beyatalla Eghbali. Microstructure and kinetics of forming intermetallic phase under conditions of solid-phase diffusion welding in a bimetallic Ti/Al composite. Physics of Metals and Metallography. 2019;120(3):280-290.