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Material Introduction
EVA/PE foam board, IXPE foam, AXPE foam, PU foam, EPP foam, EPE foam, nitrogen foam.
Closed Resource Cycle
With sustainability at its core, we have built a complete resource recycling system, from source to application, to achieve true environmental friendliness and maximized resource utilization.
The cycle begins with “renewable resources,” using naturally sourced or sustainably supplied materials to reduce the burden on the environment; it is further transformed into “bio-based materials,” replacing traditional petrochemical raw materials with environmentally friendly technologies, balancing performance and sustainability.
During the product use stage, these materials are applied to various “finished products,” meeting market demands while maintaining environmental responsibility. After product use, through an “organic recycling” mechanism, they are decomposed, remanufactured, or recycled, returning to the resource system.
Ultimately, this forms an infinitely circular closed-loop system, realizing the sustainable philosophy of “taking from nature, using nature, and returning to nature.”
EVA foam board
EVA foam is a foam material based on ethylene-vinyl acetate (EVA). Due to EVA’s chemical resistance, EVA foam maintains stable performance in various environments, is not easily affected by chemicals, has a closed-cell structure, does not absorb water, is moisture-proof, and has good water resistance. It also possesses good insulation properties, abrasion resistance, shock absorption, chemical resistance, elasticity, and excellent thermal insulation, heat preservation, cold protection, and low-temperature performance. It can withstand severe cold and sun exposure and is commonly used in industrial applications. In the commercial sector, EVA’s lightweight, softness, and elasticity make it ideal for manufacturing products requiring comfort and cushioning. EVA foam sheets can be easily processed and manufactured by cutting, lettering, and hot-melt methods, and can be made into various shapes and thicknesses to meet the needs of different products, resulting in its wide application. EVA foam is used in industries such as sports, footwear, sporting goods, packaging, automotive interiors, electronics, and protective equipment.
XPE
XPE (cross-linked polyethylene) foam is cross-linked using physical or chemical methods, resulting in a molecular structure with cross-linking bonds. Its lightweight properties make it a popular choice for automotive interiors and ship structures. It also provides insulation, making it suitable for cable insulation and battery packaging. Its flame-retardant properties effectively prevent the spread of flames in the event of a fire. It is resistant to sunlight and rain, and possesses chemical resistance, pressure resistance, and shock absorption, making it ideal for applications requiring cushioning and protection, such as packaging materials, sports equipment, and insoles. XPE is easy to process and manufacture, and can be cut, molded, and shaped to meet specific application needs, leading to its widespread use in construction, automotive, electronics, and sports equipment industries.
IXPE
(Irradiation Cross-linked Polyethylene)
Foamed material is a polyethylene foam formed through irradiation crosslinking, creating a stable network structure. Produced via electron crosslinking, IXPE features fine, uniform closed cells, delivering enhanced strength and durability. It is non-toxic, odorless, and environmentally friendly, with excellent resistance to weather, low temperatures, and solvents.
The material is easy to cut, shape, and thermoform, offering superior workability while reducing material usage and waste costs. Lightweight with adjustable softness and elasticity, it supports a wide range of processing and composite applications. Continuous production ensures consistent quality and roll supply for efficient transport and processing.
Thanks to its crosslinked structure, IXPE provides excellent insulation, flame resistance, and chemical stability, remaining unaffected by sunlight and rain. It is widely used in electronics (e.g., cable insulation, battery packaging), automotive interiors, and marine structures. Its lightweight, flexible, and shock-absorbing properties make it ideal for sports equipment and insoles. With a smooth, durable surface and vibrant color performance, IXPE is also suitable for aesthetic surface applications and multifunctional composites, expanding product versatility and performance.
PU foam
Rigid PU foam blocks, also known as “rigid foam blocks, rigid foam blocks, PU blocks, or rigid PU foam,” are sometimes jokingly called “cheesecake” due to their yellow color and occasional pores. They are primarily made by injecting polyurethane, a product of the reaction of polyol and isocyanate, into a mold for foaming. Different manufacturing processes allow for the production of foam blocks with varying densities, resulting in different hardness levels; these varying hardness levels have led to the development of numerous different names. High-density PU foam blocks, also known as “rigid PU foam, high-density PU foam, or rigid PU foam,” possess characteristics such as hardness, ease of processing, relatively light weight for the same volume, and excellent structural integrity; therefore, they are frequently used in the creation of rough and detailed models in various designs.
Nitrogen foaming
Nitrogen-bubble EVA (Ethylene-Vinyl Acetate) is a special type of EVA foam material prepared by injecting nitrogen gas during the production process. This process typically occurs during extrusion or calendering, where nitrogen gas forms bubbles within the material, causing it to expand and foam. Due to the nitrogen bubbles, its density is relatively low, thus reducing the weight of the final product. It is lightweight, soft, and elastic, while maintaining the chemical resistance and abrasion resistance of EVA. Nitrogen-bubble EVA can use environmentally friendly nitrogen gas and recyclable materials, reducing its negative impact on the atmosphere and improving the material’s sustainability. Nitrogen-bubble EVA has excellent shock absorption and cushioning properties, and is commonly used in the manufacture of shoe soles and midsoles, sports equipment, protective gear, gloves, cushioning packaging, construction, electronics, medical, and industrial applications where impact and vibration reduction is required. It also has good insulation properties, making it suitable for use in the electronics field, such as battery packaging and wire and cable insulation. Nitrogen-bubble EVA can be customized to different densities, hardnesses, thicknesses, and colors to meet specific needs.