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添加劑AddiPRO is an additive which, when added to conventional PE/PP, and at the effect of oxygen, sunlight and heat, will accelerates the decomposition of the long & highly cross-chained plastic molecules to become much smaller fragments which then at the effect of microbes generally present in the environments, will triggers the biodegradation by microbes to turn organic carbons in the fragmented plastic debris into carbon dioxide, water & new biomass.

 

During manufacturing, the addition of AddiPRO to conventional plastic resins does not require you to make any modification to your current production facilities, settings or production process, nor will it sacrifice your product quality. More importantly, the increment to the final product costs is immaterial.

 

When disposed of plastic products with 2%(Note 1) AddiPRO added are exposed to oxygen, sunlight and heat, the specific metallic ions will induce the weakening and afterwards the breaking of the C-C bonding in the long plastic molecule chains.

 

The breaking of the C-C bonding will lead to the oxidation of carbon ions to become biodegradable compounds such as alcohol, aldehyde, ketone & Suan-acids etc., at the same time release even more free metallic ions which in turn will attack another C-C bonding in the chain.

 

Such chemical reactions once triggered, will continue even in the dark, and will be accelerated by high temperature as well as intensive sunlight. The polarized organic compounds will enable and support the growth of microbes on its surface at the consumption of plastic molecules and the release of carbon dioxide, water & new biomass as end products.

Electron microscopy photos illustrated the breaking of plastic molecular bonds led to the emergence of numerous small holes on the surface of 3 different formulated plastic films, which had been buried underneath the earth for 6 months. At that moments, the films had totally lost their elongation strength and would become numerous debris or even powders with any external forces.

40% surface area grown with microbes

60% surface area grown with microbes

80% surface area grown with microbes

Electron microscopy photos illustrated the breaking of the C-C bonding will lead to the oxidation of carbon ions to become biodegradable compounds such as alcohol, aldehyde, ketone, Suan-acids etc., at the same time release even more free metallic ions which in turn will attack another C-C bonding in the chain. The polarized biodegradable organic compounds will enable & support the growth of microbes on its surface

Note 1: In order to break the strong C-C bonding of the plastic molecules, sufficient specifically formulated oxidation-biodegradation-accelerators of the Addipro much be evenly added to the plastic resins during production. These acclerators were firstly evenly mixed with PE/PP which act as carriers with granular size similar to that of industrial PE/PP resins ready for direct production. The lesser the amounts of PE/PP pellets be used as carriers for the accelerators, the higher will be the concentration of such accelerators in each carrier, and vice versa. Theoretically, more carriers (already with accelerators in it), say 4% AddiPRO, (i.e. less concentrated accelerators in the carrier) added to the bulk PE/PP resins (ready for direct production), a better scattering effect will be obtained and hence a much more evenly distributed accelarators in the end products. Oppositely, if less carriers, say 1% Addipro (i.e. more concentrated accelerators in the carrier) is added to the bulk PE/PP resins, there will be a higher risk of unevenly scattering of carriers in the bulk resins undergoing production, despite the fact that in both cases, the total number of accleratores in the end products remain the same. Taking into consideration of all the factors, we consider 2% is an optimal percentage.

 

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