In today's society, with the increasing shortage of resources and the increasing awareness of environmental protection, lightweight design has become an important trend in product development, especially in the field of thin-walled containers. This trend is not only about advancements in materials science, but also about innovations in thin wall plastic mould design to achieve more efficient and environmentally friendly production methods. This article will delve into the new lightweight requirements for thin wall plastic mould design, and how to effectively reduce material usage while ensuring structural strength and functionality.

Application of new materials

The key to lightweight design lies in material selection. Traditionally, polypropylene (PP) has been the material of choice for thin-walled containers due to its good formability and lower density. However, with the advancement of technology, new composite materials and biodegradable materials have emerged, such as nano-reinforced plastics, bio-based plastics, etc., which further reduce density while maintaining or improving strength, providing more possibilities for lightweight design. sex.

Innovation in thin wall plastic mould design

High-efficiency hot runner system

In order to adapt to the rapid cooling needs of lightweight materials, a more efficient hot runner system is introduced in the design of thin wall plastic moulds, such as a full hot runner point door design, which ensures uniform and rapid cooling of materials, shortens cycle time, and ensures uniform wall thickness of the product. , reducing internal stress, thus ensuring the strength of the container while reducing material.

Topology optimization and simulation technology

Using computer-aided design (CAD) and finite element analysis (FEM), engineers can perform topology optimization, simulate the stress distribution under different design options, and find the most economical use of materials and optimal strength design options. This design approach allows the removal of material in non-load-bearing areas, achieving lightweighting of the structure without sacrificing functionality.

Structural innovation

Drawing on lightweight structures in nature, such as honeycomb structures and bionic designs, thin wall plastic mould designs begin to adopt porous or hollow structures. These thin wall plastic mould designs reduce the amount of material while maintaining or even enhancing the container through structural optimization. Compressive and bending properties.