| Quantity: | |
|---|---|
Metal
TOYOE
| This packaging solution offers strong flexibility in response to dynamic changes in parts demand. When the types, sizes, or quantities of parts require adjustment, its internal layout can be flexibly reconfigured to match new storage and transportation needs; meanwhile, the outer shell can be repeatedly reused instead of being discarded after single use. This dual design not only reduces the generation of packaging waste to enhance environmental protection benefits but also lowers the cost of repeatedly purchasing new packaging, effectively improving economic returns. |
 |  |  |
| The anti-static PP material, developed through conductive modification, prevents static accumulation and static discharge damage to electronic components. It resists chemical corrosion, making it ideal for packaging precision instruments in chemical engineering and healthcare. |
The PU foam, prepared through microcellular foaming, exhibits outstanding energy absorption and shock resistance. It can maintain its support force after repeated loadings due to its anti-compression properties. tailoring cell density allows for protection of components of varying weights. |
|
| High-expansion PE material has low density and high elasticity. It insulates against extreme temperatures during transport of automotive electronic components, protecting precision circuits. Its anti-aging property ensures reliability in long-term outdoor storage. |
| This packaging solution offers strong flexibility in response to dynamic changes in parts demand. When the types, sizes, or quantities of parts require adjustment, its internal layout can be flexibly reconfigured to match new storage and transportation needs; meanwhile, the outer shell can be repeatedly reused instead of being discarded after single use. This dual design not only reduces the generation of packaging waste to enhance environmental protection benefits but also lowers the cost of repeatedly purchasing new packaging, effectively improving economic returns. |
| | |
| The anti-static PP material, developed through conductive modification, prevents static accumulation and static discharge damage to electronic components. It resists chemical corrosion, making it ideal for packaging precision instruments in chemical engineering and healthcare. |
The PU foam, prepared through microcellular foaming, exhibits outstanding energy absorption and shock resistance. It can maintain its support force after repeated loadings due to its anti-compression properties. tailoring cell density allows for protection of components of varying weights. |
|
| High-expansion PE material has low density and high elasticity. It insulates against extreme temperatures during transport of automotive electronic components, protecting precision circuits. Its anti-aging property ensures reliability in long-term outdoor storage. |
