Green foam
Model | Density(kg/m3) | Hardness (Asker F) | Compression set (%) | Features and Applications |
Green30 | 30±5 | 60±5 | 10 Max | 1.Adapted soybean oil extraction of polyether polyols to replace crude oil polyether polyols. Raw material is renewable and plant based. 2.Good breathability, with soft and delicate texture. Suitable for lining, shoe tongue, furniture cushions and others. 3.Bio based carbon content is about 20%. |
Green50 | 50±5 | 80±5 | 10 Max | 1.Adapted soybean oil extraction of polyether polyols to replace crude oil polyether polyols. Raw material is renewable and plant based. 2.Good pliability, and breathability. Suitable for collar, hot-pressed accessories and sock liner, high-end furniture cushions and others. 3.Bio based carbon content is about 20%. |
Green150 | 130±10 | 9-15 | - | 1.High biomass content. With U.S. Beta certified third party lab test: 38 % Bio based Carbon Content (as a fraction of total organic carbon). 2.Raw material is extracted from soybean, using high-tech extraction. Could be planted and regrow. In replacement of oil extraction raw materials, it comes with a decent biodegradable feature. 3.Suitable for high-end insoles, cushions, sporting goods, etc. 4.Material is green, non-toxic, healthy, and safe. |
Refurbishment Foam - RF001
Density (Kg/ m3) 200±10
Hardness (Asker F) 85±10
*Density and Hardness could be adjusted upon request.
Application and properties
- Re-collected foam scraps, and re-foamed, therefore it’s a refurbishment.
- It’s quite dense, with great supportability​. Comfortable and very bouncy.
- Suitable for sock liners and others.
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1
01/Collect the foam waste.
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2
02/Crush the sorted foam waste into small foam chips.
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3
03/Mix with raw materials Polyol, T-9, and TDI into the mixing drum for rebounding.
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4
04/Recycled foam was formed.
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5
05/Cutting foam according to the required thickness.