Mathematical Simulation of Welding Processes

Major: Manufacturing Engineering
Code of subject: 7.131.03.M.017
Credits: 5.00
Department: Department of Oil and Gas Engineering and Welding
Lecturer: Ph.D., associate professor Dzyubyk A.R.
Semester: 2 семестр
Mode of study: денна
Learning outcomes: • learn methodological bases of mathematical models describing thermal and thermomechanical processes in welding; • learn basic methods for solving differential equations in partial derivatives that describe welding processes; • master basic clearing and settlement and experimental methods of determining temperature fields during welding; welding stresses and strains; • learn to use the methods of control of welding stresses and deformations in the development of new effective technologies of welded structures and their diagnosis.
Required prior and related subjects: - Production project management
Summary of the subject: Mathematical and computational models of welding. The working body. Sources of heat. Mathematical model of action instant heat sources, continuous sources, mobile sources of constant power when heated with fast and powerful heat sources. Mathematical modeling of processes when welding dissimilar metals. Mathematical modeling of processes in the case of plasma cutting. Mathematical modeling of processes in the case of friction welding. Mathematical modeling of processes in the case of heating gas burner and local heat treatment of welded joints in the case of many passing welding. Mathematical modeling of processes in the case of welding - soldering. Mathematical modeling of processes in the case gas-heated, in the case of the processes associated with phase transitions. Simulation of residual stresses in thin plates with straight and circular seams. Mathematical modeling using settlement-experimental method for determining residual welding stresses. Formulation of inverse problems and methods of their solution.
Assessment methods and criteria: Current express control (70%) of control work (30%)
Recommended books: 1. Kiryan V. I., V. A. Osadchuk, M. M. Nikolishin Fracture mechanics of welded joints of metal structures: lions : Spolom, 2007. — 320 p. 2. Strutinsky V. B. Mathematical modeling of processes and systems mechanics: Textbook — Zhitomir: ZHITI, 2001. — 612 p. 3. Kushnir R. M., Nikolishin M. M., Osadchuk V. A. Elastic and elastic-plastic ultimate state of shells with defects: lions:-tvo "SPOLOM", 2003. — 320 p. 4. Kuzmenko A. G. the Methods of calculations and tests for wear and reliability: Khmelnitsky: BLUNT, 2002. – 151p. 5. A. V. Vasylyk, Dragomiretsciy J. M., Kril J. A. Thermal analysis in welding. – Ivano-Frankivsk : Fakel, 2004. – 209 p.