English 
Traditional cushioning materials have unstable cushioning performance during the transportation of precision instruments, resulting in a breakage rate as high as 3%; traditional packaging has low warehousing and distribution space utilization, increasing logistics costs; lack of environmental labeling affects access to international markets.
Precision cushioning structure design (such as a "honeycomb sandwich" structure) using 3D molding molds, achieving a compressive strength of 20kPa; combined with automated production lines, packaging efficiency is improved by 30%, and warehousing and distribution space utilization is improved by 25%; products are RoHS certified and support carbon footprint labels and recyclable labels.
Customized cushioning paper trays for a home appliance company, achieving a protection rate of 99.9% (passing ISTA 3A transport test), improving warehousing and distribution space utilization by 25%, and reducing unit logistics costs by 15%; products exported to the EU obtain green tariff preferences based on carbon footprint labels, resulting in a 20% increase in annual export value.
