Digital twin technology empowers mold R&D, shortening the prototype testing cycle by 60%.
Release time:
2020-09-04
The virtual model of shoe material plastic molds, built using digital twin technology, can accurately simulate the operational status of the mold and the cavity-filling process under various injection-molding parameters on a computer. By conducting virtual simulations in advance to optimize critical parameters such as injection temperature, pressure, and speed, this approach significantly reduces the number of physical prototype trials, shortening the mold-debugging cycle from 5 days to 2 days and cutting material waste during prototyping by 60%. This technology has been successfully applied to the development of air-cushion molds for basketball shoes, resulting in a 15% improvement in the air-cushion’s rebound performance.
The virtual model of shoe material plastic molds, built using digital twin technology, can accurately simulate the operational status of the mold and the cavity-filling process under various injection-molding parameters on a computer. By conducting virtual simulations in advance to optimize critical parameters such as injection temperature, pressure, and speed, this approach significantly reduces the number of physical prototype trials, shortening the mold-debugging cycle from 5 days to 2 days and cutting material waste during prototyping by 60%. This technology has been successfully applied to the development of air-cushion molds for basketball shoes, resulting in a 15% improvement in the air-cushion’s rebound performance.
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