Skip to main content
Skip header

Numerical Methods in Welding

* Exchange students do not have to consider this information when selecting suitable courses for an exchange stay.

Course Unit Code345-0530/07
Number of ECTS Credits Allocated4 ECTS credits
Type of Course Unit *Choice-compulsory type B
Level of Course Unit *Second Cycle
Year of Study *Second Year
Semester when the Course Unit is deliveredSummer Semester
Mode of DeliveryFace-to-face
Language of InstructionCzech
Prerequisites and Co-Requisites Course succeeds to compulsory courses of previous semester
Name of Lecturer(s)Personal IDName
HLA80prof. Ing. Ivo Hlavatý, Ph.D.
KOZ323Ing. Jindřich Kozák, Ph.D.
Summary
Learning Outcomes of the Course Unit
The graduate will acquire the knowledge, skills and competences in the field of computational methods in the fields of welding and their use.
The aim of the study is to obtain knowledge of numerical methods in welding in the areas of:
-calculations preheating in welding
-calculations on the vulnerability in the cracks and after welding
-calculations when you define each area of the weld and their structural phases
-calculations using finite element methods (FEM) for the monitoring of temperature fields in the fields of welded joints
-calculations using finite element methods (FEM) for the determination of deflection and stress in welding in building construction
The second group is the management of the application of computing methods of welding sources, in particular in the areas of pulse, synergy and inverter resources.
A third group of application of computing methods in welding is a continuous record of data in the process of welding, their subsequent evaluation and processing.
Course Contents
1. The numerical method used for calculating-in welding
2. The calculation of predisposition on the cracks in the welding and the
3. The calculation when you define each area of the weld and their structural phases
4. The calculation using the finite element methods (FEM) for the monitoring of temperature fields in the fields of welded joints
5. The calculation using the finite element methods (FEM) for the determination of deflection and strain in structures in welding.
6. Processor control pulse welding resources
7. Processor control synergy welding resources
8. Processor control inverter welding resources
9. Methods of continuous sensing data during welding, the recording and processing
Recommended or Required Reading
Required Reading:
HLAVATÝ, I. The Theory and Technology of Welding. [on line]. VŠB – TU Ostrava, 2009, The Last Revision 20. 10. 2010. Available from www: < http://fs1.vsb.cz/~hla80 >.
HRIVŇÁK, J. Teória zvaritelnosti kovov a zlatin. Vyd. Bratislava,VEDA, 1989.
KUNCIPÁL, J. a kol.: Teorie svařování. SNTL Praha, 1986, s. 234 až 242.
HLAVATÝ, I. Teorie a technologie svařování (The Theory and Technology of Welding) - první multimediální publikace o svařování. [on line]. VŠB – TU Ostrava, 2009, poslední revize 20. 10. 2010. Dostupné z www: < http://fs1.vsb.cz/~hla80 >.
Recommended Reading:
Jamshid Sabbaghzadeh, Maryam Azizi, M. Javad Torkamany. Numerical and experimental investigation of seam welding with a pulsed laser. Optics & Laser Technology, Volume 40, Issue 2, 2008, Pages 289-296, ISSN 0030-3992, http://www.sciencedirect.com/science/article/pii/S0030399207000874.
Renping Wang, Yongping Lei, Yaowu Shi. Numerical simulation of transient temperature field during laser keyhole welding of 304 stainless steel sheet. Optics & Laser Technology, Volume 43, Issue 4, 2011, Pages 870-873, ISSN 0030-3992, https://www.sciencedirect.com/science/article/pii/S0030399210002641
Novosád, D., Holub, L. Monitorování svařovacího procesu, ověření teplot numerické simulace svařovacího procesu pomocí WIS (Welding information system). [cit. 2016-11-06]. Dostupné z www: https://dk.upce.cz/bitstream/handle/10195/48749/HolubL_MonitorovaniSvarovaciho_2012.pdf?sequence=1&isAllowed=y.
Planned learning activities and teaching methods
Lectures, Tutorials
Assesment methods and criteria
Task TitleTask TypeMaximum Number of Points
(Act. for Subtasks)
Minimum Number of Points for Task Passing
Graded creditGraded credit100 51