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Main Plastic Materials

PE (Polyethylene):One of the most common thermoplastic materials, PE is flexible with good chemical stability. It is widely used in products such as plastic bags, packaging films, containers, and pipes. PE has excellent processability and can be recycled, making it environmentally friendly.

PET (Polyethylene Terephthalate): PET has a molecular structure that provides excellent impact resistance and chemical corrosion resistance, making it commonly used for products requiring transparency. It is typically used in beverage bottles, food packaging, and is also a recyclable and eco-friendly option.

PP (Polypropylene): Known for its light weight, high rigidity, and heat resistance, PP also has excellent chemical resistance and processing performance. It can withstand higher temperatures while remaining stable. PP is ideal for food containers, automotive parts, and more.

HDPE (High-Density Polyethylene):HDPE has a tighter molecular structure, providing higher strength and lower density compared to other polyethylene materials. It offers superior impact resistance and strength. HDPE also has excellent chemical resistance, able to withstand strong acids, strong alkalis, and other corrosive chemicals.

LDPE (Low-Density Polyethylene): Compared to HDPE, LDPE has a lower density and higher flexibility. It has higher transparency and good water resistance. LDPE is commonly used for plastic bags, packaging films, and wire insulation, making it suitable for flexible product applications.

Sustainable Plastic Materials

With the growing awareness of environmental issues, the use of sustainable plastic materials has gained attention. These materials are characterized by their lower environmental impact, especially in terms of recyclability, biodegradability, or renewability.

Biodegradable Plastics (PLA, PHA):Made from plant-based materials, these plastics can break down under composting conditions. Commonly used for single-use packaging and eco-friendly bags, biodegradable plastics have environmental potential, but they tend to be more expensive and perform less well compared to traditional plastics.

Recycled Plastics (Recycled PET, HDPE): Recycled plastics are made from recovered PET or HDPE materials. They help reduce the consumption of raw materials and offer cost advantages. 91视频官网ever, the quality of the final product is often influenced by the source of recycling, so quality control is essential.

Bio-based Plastics (Bio-PE, Bio-PET): These plastics use natural resources instead of petrochemical materials and are used in packaging for food and consumer products. They offer the advantages of recyclability and reduced carbon footprint but do not have biodegradability. Their physical properties are similar to conventional plastics.

91视频官网 Plastic is Handled

With the rapid increase in plastic use, effectively managing plastic waste has become a key environmental issue today. Below are the main methods for plastic waste treatment and their current status:

Mechanical Recycling：Involves cleaning, sorting, shredding, melting, and reforming plastic waste into pellets. These recycled pellets can then be used to produce new plastic products. Commonly recycled plastics include PET, HDPE, PP, and others.

Chemical Recycling：Involves chemically treating plastic waste to break it down into its basic units or low-molecular materials, which can then be reused to create new plastic raw materials. Common methods include pyrolysis, gasification, and catalytic cracking.

Biological Recycling：Or biodegradation, refers to using microorganisms or enzymes to break down plastic waste into harmless substances. Currently, this technique is mainly applied to biodegradable plastics (such as PLA and PHA). 91视频官网ever, its effectiveness in degrading traditional plastics is limited.

When plastics cannot be effectively recycled or reused, energy recovery can be a solution, where plastic waste is converted into energy. This is typically achieved through methods such as incineration or pyrolysis, converting plastic into thermal or electrical energy.

Incineration Treatment Incinerating plastic waste allows the energy contained within the plastic to be converted into thermal or electrical energy. This method is already used in some countries or regions as a form of waste management.

Waste-to-Energy (WTE) IncinerationWaste-to-energy (WTE) incineration involves burning plastics and other waste at high temperatures to generate electricity. This method helps reduce landfill waste while also providing renewable energy.

Landfilling is one of the simplest plastic waste treatment methods, but it has a significant environmental impact. Plastics are not easily biodegradable, so when buried in landfills for extended periods, they occupy vast amounts of land and can potentially contaminate groundwater and soil.

As environmental awareness increases, many businesses and research institutions are actively exploring alternatives to plastic, including the use of biodegradable or natural materials (such as plant-based plastics, mushroom plastics, etc.).

Biodegradable Plastics (e.g., PLA) These plastics can break down into natural substances under specific conditions, reducing their environmental burden.

Bio-based Plastics (e.g., Bio-PE, Bio-PET)Made from plant-derived materials instead of petroleum, bio-based plastics help reduce carbon footprints and are recyclable.

Conclusion

Material selection is not solely dependent on price or conventional specifications, but rather requires a comprehensive consideration of functionality, manufacturing efficiency, and sustainability. In the context of growing global environmental awareness, choosing recyclable or biodegradable plastics has become an industry trend. Only by achieving a balance between material properties, application scenarios, and environmental responsibility can companies maintain market competitiveness and enhance their brand image, thus achieving truly forward-thinking product development.