Pulp molding, as a new type of biodegradable and environmentally friendly packaging material, has been widely used in the cushioning packaging of products. The discussion on the cushioning performance of the pulp molded cushion packaging structure and its packaging dynamic reliability has important theoretical significance and greater engineering application value.
Through simulation analysis and experiments to study the relationship between the structural parameters and cushioning performance of pulp molding, there are many aspects as follows:
1. Carry out parameter tests on the mechanical properties of specific pulp molding materials.
2. The complex structure of special-shaped cushioning packaging is analyzed,
3. The dynamic shock simulation analysis was carried out on three typical structural models,
4. Through static compression and dynamic shock simulation analysis. The calculation method of the reliability index of cushioning packaging structure under moderate packaging is discussed, and the reliability design of cushioning packaging provides theoretical guidance.
