Abstract
The article presents a comparison of modern computational techniques used in numerical analyses of welding processes. The principles of the “transient” technique calculations with a moving heat source, the “macro-bead” (MBD) technique, with an imposed thermal cycle on a selected weld bead section and the “local–global” approach with shrinkage calculation technique were described. They can be used, depending on the variant chosen, both for individual, simple weld joints and those made of many beads or constructions containing dozens of welds and welded elements. Differences in the obtained results and time needed to perform calculations with four different calculation examples of single and multipass arc and laser beam welding processes were presented. The results of calculations of displacements and stresses distributions in the welded joints using various computational techniques were compared, as well as the calculation times with the described techniques. The numerical analyses in the SYSWELD software package have shown the differences between the described computational techniques, as well as an understanding of the benefits and disadvantages of using each of them. This knowledge allows preparing an efficient and fast optimization of the welding processes, often aimed at minimizing deformations in the first place, as well as detection of potential defects of both simple and complex welded structures. In general, the possibilities and flexibility of modern numerical calculation software have been presented.
Highlights
Calculations or numerical solutions have been known to engineers for a long time, in technical fields and in medicine or natural sciences
Increasing requirements regarding the accuracy of element preparation and maintaining minimum dimensional deviations during and after the welding process mean that we readily use modern computational tools [1,2,3,4,5,6,7]
As it was already mentioned, depending on the selected calculation method, numerical analyses of welding processes carried out in the SYSWELD environment can be divided into the following groups: Local analysis: Used to determine the distribution of temperature fields, metallurgical phases as well as stresses and deformations within one welded joint; Global analysis: This applies to the entire structures and usually involves changing the size of the structures and stresses distributions around the welds [1,2,3,4]
Summary
Calculations or numerical solutions have been known to engineers for a long time, in technical fields and in medicine or natural sciences. The development of numerical analysis software has recently focused mainly on advanced second-generation simulation calculations These types of simulations support a unique way of creating the final product using various industrial technologies. The first of them is associated with a detailed, often partial solution of selected effects of the welding process, consisting of determining the shape and dimensions of the weld molten pool, heat affected zone (HAZ) and related metallurgical and mechanical changes in the area of the welded joint [1,2,3,4,5] The result of this type of analysis is always a detailed description of the solution, only in relation to a specific, individually considered data and process parameters. Each of them are successfully used in today’s modern computational packages [1,2,3,4,5,8,11,12,13,14,15,16,17,18]
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