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Biodegradable Products Categories

Our eco-friendly concept

The degradation process of the all-biodegradable material in the soil within 180 days.

Unlike conventional packaging, biodegradable/compostable packaging is made out of organic materials (such as corn, potato, sugar cane, and cellulose) that easily break down into carbon dioxide and water over a fair amount of time without leaving any toxins or harmful chemicals behind.

  • Under composting conditions, with the presence of moisture, soil, microorganisms and temperature, it will break into pieces in 3 months and degrade into water and carbon dioxide within 6 months.

    Note: The main composting methods include industrial composting and household composting at room temperature. In addition, marine degradation is also becoming popular.

  • Biodegradation under composting conditions (water, soil, microorganisms, and temperature are all required for degradation) is under high temperature, high humidity, and soil contact.


    Note: High temperature refers to about 58°C, and high humidity refers to about 90%.

  • The price of biodegradable materials is 50% to 2 times more expensive than polyolefins. The reasons are:

    1. The production capacity and output scale of polyolefins are at the level of hundreds of millions of tons, which has already achieved economies of scale, while the production scale of biodegradable materials is only hundreds of thousands of tons, and various costs are relatively high, which has not formed economies of scale;

    2. At present, the monomers used in biodegradable materials, whether from oil, coal, natural gas, or crops, have not been mass-produced, and the conversion cost of monomers is relatively high; in the future, the price of PBAT is expected to drop to 12,000/ton, the price of PLA is expected to drop to 14,000/ton, and the cost of modified materials will also drop to less than 10,000/ton.

  • 1. In terms of density, the specific gravity of degradable materials is 1.26g/cm³, while that of traditional polyolefins is 0.925g/cm³;


    2. Heat sealing performance: The heat sealing temperature of degradable materials is 30-50 degrees lower than that of polyolefin materials, but there will be some differences in different equipment. The heat-sealing performance of degradable materials is shorter than that of polyolefins and is more affected by the environment;


    3. Tensile force and strength stability: The tensile force and elongation at break of degradable materials are similar to those of polyolefins, but due to environmental influences and formulations, the tensile force and elongation will gradually decrease over time and environment and are not as stable as polyolefins.

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Biodegradable, Compostable & Sustainable

products, and a healthy lifestyle as well.

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