为了提高生产效率,尽用注塑机的四柱空间、模板空间及注塑重量来达到最高的腔数。
To increase productivity, maximize on the number of cavities by using the clearance between tiebars, the platen dimensions and the injection weight of the injection moulding machine to the most.
为了有效地降低注塑机模板的重量,提出了从高层次拓扑优化到底层次参数化优化的顺序优化设计方法。
To effectively reduce the injection-machine mould-board weight, sequential optimization design method starting from high level topology optimization to low level parameter optimization was proposed.
小的尺寸和公差?轻的部件重量和小的公差?为特定产品配备注塑设备?稳定的质量,高的重复性。
Small part dimension and small tolerance? Low weight and small tolerance? Adaptation of machine performance to the parts? Stable quality, high reproducibility.
模型调整成功后,可以实时预测注塑制品重量,在基于规则的基础上自动调节工艺参效,保证制品重量在要求范围内。
After it was trained successfully, it could be used to forecast the part mass on-line and adjust molding process variables based on rules in order to ensure the part mass in need.
小的尺寸和公差?轻的部件重量?为特定产品配备注塑设备?灵活的机器配备(一台机器可适用于多种模具)?稳定的质量,高的重复性。
Small part dimension and tolerance? Low weight? Adaptation of machine performance to the parts? Flexible machine configuration (many molds suitable for one machine)? Stable quality, reproducibility.
小的尺寸和公差?轻的部件重量?为特定产品配备注塑设备?灵活的机器配备(一台机器可适用于多种模具)?稳定的质量,高的重复性。
Small part dimension and tolerance? Low weight? Adaptation of machine performance to the parts? Flexible machine configuration (many molds suitable for one machine)? Stable quality, reproducibility.
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