Thereby the welding process window is predicted between the quality required minimum weld nugget size and the splash (expulsion) limit. The splash (expulsion) limit is predicted. One of the most exciting new functions released with the new version SORPAS 10 is the Intelligent Weld Planning for predicting the Optimal Weld Schedule (weld current, force, weld and hold time).Īccording to the user-defined Weld Task Description (WTD) with information of the sheets, electrodes, type of welding machine, and the desired weld quality, SORPAS will automatically optimize and find the optimal weld current, force, weld time and hold time. Intelligent Weld Planning (Add-on Module)
SORPAS has been applied in various industries for solving problems in spot welding, projection welding, butt welding and micro resistance welding and supporting research and development as well as process parameter optimizations. Numerous new inventions have been supported with SORPAS simulations Applications: It is possible to simulate with dimensions of weld parts ranging from ordinary sizes in millimeters down to micro sizes in a fraction of micron with welding machines of all types of power sources including AC, DC, MFDC, inverter, and capacitor discharge. The users can also add their own materials. The build-in material database in SORPAS has included nearly all commonly used metal materials including all types of steels, aluminum alloys, titanium alloys, copper alloys, nickel based alloys, surface coating materials, pure metals and high melting metals such as tungsten and molybdenum etc. The integration of welding expertise with numerical techniques has made SORPAS a unique and powerful tool for engineers directly working in industry.
It doesn't need any prior knowledge in numerical simulations, but can be easily learned and used by engineers with knowledge of welding and materials. It has been specially developed for engineers by engineers.
#WELDING SIMULATION SOFTWARE FREE DOWNLOAD PROFESSIONAL#
SORPASis dedicated professional software for simulation and optimization of resistance welding processes.
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