Figure 1-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 2-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 3-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 4-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 5-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 1-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 2-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 3-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 4-PMU Biodegradable Cosmetic Packaging-Cream Jar
Figure 5-PMU Biodegradable Cosmetic Packaging-Cream Jar

PMU Biodegradable Cosmetic Packaging

Material PMU 
Size 50ML/100ML
Color Custom Color
Closure 2 Shapes
MOQ 10,000pcs
Price  ask sales
Freight Please ask sales person, freight is calculated by the weight

Benefits of PMU Biodegradable Cosmetic Packaging

  • Environmentally-friendly: PMU Biodegradable cosmetic packaging is made from materials that break down naturally, helping to reduce plastic waste and minimize the impact on the environment.
  • Versatile: PMU Biodegradable cosmetic packaging can be designed to fit a variety of cosmetic products, from creams and lotions to powders and sprays, making it a versatile option for cosmetic brands.
  • Durable: PMU Biodegradable cosmetic packaging is made from high-quality materials that are durable and protect cosmetic products from degradation, ensuring that they remain fresh and effective.
  • Brand differentiation: Using PMU biodegradable cosmetic packaging can help differentiate a brand from competitors, showing customers that the company is committed to sustainability and environmental responsibility.
  • Consumer appeal: Many consumers are actively seeking out environmentally-friendly products, including biodegradable cosmetic packaging, making it a selling point that can appeal to a wide range of consumers.
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Questions and Answers

PMU is a type of polyimide polymer material, which belongs to the category of inorganic biodegradable polymers. It has excellent properties such as heat resistance, chemical resistance, radiation resistance and mechanical strength, and is widely used in fields such as aviation, electronics, medical, and construction.And it is a new biodegradable cosmetic packaging material.

  • Hydrolysis: PMU can be broken down by water molecules into small molecules such as acetic acid and formic acid, which is a natural degradation process. In the presence of water, water molecules can be incorporated into the polymer chains of PMU, leading to the breakage and degradation of the polymer chains.
  • Microbial degradation: PMU can be broken down by microorganisms, such as certain bacteria and fungi. These microorganisms break down PMU by breaking the chemical bonds in the polymer chains of PMU, leading to the degradation of PMU into small molecule compounds.
  • Photodegradation: PMU can be degraded by the action of ultraviolet light]and other light sources. Under the action of light, the chemical bonds in the polymer chains of PMU can be broken, leading to the production of smaller molecules and ultimately resulting in degradation.
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  • The reason we introduce the PMU used as biodegradable cosmetic packaging, because it can be really biodegradable in some certain situation.See the below conditions:
  • The degradation rate of PMU, an inorganic biodegradable polymer, is influenced by various factors such as environmental temperature, humidity, microbial species and quantity, and the structure and thickness of the polymer. Under appropriate environmental conditions, PMU can completely degrade in several months to several years.
  • Specifically, the degradation rate of PMU is closely related to the environmental temperature. In a higher temperature environment, the degradation rate of PMU is faster, while in a lower temperature environment, the degradation rate is slower. Additionally, humidity is also an important factor that affects the degradation rate of PMU. In a humid environment, water can accelerate the degradation process of PMU.
  • In the presence of microorganisms, the degradation rate of PMU can also be accelerated. Some microorganisms, such as bacteria and fungi, can break down PMU by breaking the chemical bonds in the polymer chains of PMU, leading to the degradation of PMU into small molecule compounds.
  • In summary, the degradation rate of PMU, an inorganic biodegradable polymer, is not constant, but influenced by various factors. Under appropriate environmental conditions, PMU can completely degrade in several months to several years.
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  • The degradation of PMU inorganic biodegradable plastic requires suitable environmental conditions, including temperature, humidity, and microorganisms. In nature, these conditions are often not met, so appropriate measures need to be taken to promote PMU degradation.
  • Generally, there are two ways to deal with PMU inorganic biodegradable plastic: recycling and biodegradation. Recycling is the process of collecting and processing PMU to produce new materials, which is an environmentally friendly and cost-effective method. Recycling can reduce plastic waste emissions, as well as the demand for raw materials and production costs.
  • The other method is to discard PMU into the natural environment for biodegradation. As PMU can be decomposed by microorganisms, it can be biodegraded naturally in suitable environmental conditions, such as in a humid and appropriate temperature environment. However, if PMU is discarded in unsuitable environmental conditions such as a dry and hot environment, its degradation rate will be very slow or even unable to degrade, causing environmental pollution.
  • In summary, to promote the degradation of PMU inorganic biodegradable plastic, appropriate treatment methods should be adopted, such as recycling or biodegradation in suitable environmental conditions, instead of randomly discarding it into the natural environment.
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  • Sure, PUM can be used as biodegradable cosmetic packaging. Cosmetic packaging typically requires excellent physical properties and chemical stability, as well as good transparency and appearance. PMU inorganic biodegradable cosmetic packaging has these characteristics and can be used as a cosmetic packaging material.
  • PMU inorganic biodegradable plastic has good appearance, which can meet the requirements of cosmetic packaging. In addition, it also has high strength and heat resistance, which can withstand the pressure and temperature changes of cosmetic packaging. Furthermore, since PMU inorganic biodegradable plastic can degrade in suitable environmental conditions, it can reduce environmental pollution and meet the requirements of sustainable development.In the biodegradable cosmetic packaging industry,PMU usage is wider and wider.
  • Currently, some cosmetic brands have alredy begun to use PMU inorganic biodegradable cosmetic packaging . For example, some brands under the L’Oreal Group have started to use PMU inorganic biodegradable plastic to reduce the impact of packaging on the environment. Therefore, PMU inorganic biodegradable plastic can be applied to cosmetic packaging, and in the future, more cosmetic brands may adopt this material to manufacture packaging.
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  • PMU and PLA can both used as biodegradable cosmetic packaging usage.PMU i and PLA are two different materials with different structures, properties, and degradation mechanisms.
  • Firstly, PMU inorganic biodegradable cosmetic packaging is an inorganic polymer material that contains some inorganic elements such as potassium, sodium, calcium, etc. in its molecular structure. PLA biodegradable plastic, on the other hand, is an organic polymer material that contains a large amount of organic elements such as carbon, hydrogen, oxygen, etc. in its molecular structure.
  • Secondly, the properties of the two materials are also different. PMU inorganic biodegradable plastic has , heat resistance, and UV resistance, while PLA biodegradable plastic has excellent heat resistance, mechanical properties, and processability.
  • Finally, the degradation mechanisms of the two materials are also different. The degradation of PMU inorganic biodegradable plastic is achieved through hydrolysis and microbial decomposition. When PMU inorganic biodegradable plastics, exposed to a moist environment, the chemical bonds in it are broken by water, leading to its degradation. The degradation of PLA biodegradable plastic is achieved through microbial decomposition and photodegradation. Under appropriate environmental conditions, PLA biodegradable plastic can be broken down by microorganisms into small molecular compounds, or can be degraded into substances such as carbon dioxide and water by photodegradation.
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As market prices can vary depending on factors such as location, brand, and quantity, it cannot be generalized which material has a price advantage. However, due to the relatively complex production process of PMU inorganic biodegradable plastic, its price may be slightly higher than that of PLA biodegradable plastic. However, as the production technology of PMU inorganic biodegradable plastic continues to improve and be promoted, its price may gradually decrease, while also becoming more cost-effective. When selecting materials, in addition to price factors, factors such as performance, biodegradability, and sustainability should also be considered to meet actual needs and sustainable development requirements.

  • The use of biodegradable plastics has become increasingly popular in recent years due to growing concerns about plastic waste and its impact on the environment. Biodegradable plastics are designed to break down naturally through biological processes, such as microbial decomposition or hydrolysis, into harmless substances. This makes them a potential solution to the problem of plastic waste that can persist in the environment for hundreds of years.But plastic has a good function property, 100% plastic-free can not come true at current situation, then the biodegradable plastic comes, and the usage is expanding to the biodegradable cosmetic package industry.
  • However, it is important to note that the effectiveness of biodegradable plastics in reducing plastic waste and environmental impact depends on several factors, including their production, use, and disposal. For example, if biodegradable plastics are not properly disposed of in composting facilities or environments that support their biodegradation, they may not break down as intended and could still contribute to plastic pollution. Furthermore, some biodegradable plastics require specific conditions, such as high temperatures or humidity, to biodegrade, and may not break down in typical landfill or marine environments.
  • Therefore, while biodegradable plastics have the potential to be an effective environmental trend, their effectiveness depends on proper use and disposal, as well as continued efforts to reduce overall plastic consumption and improve waste management systems.
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  • The production cost of biodegradable plastics is generally higher than that of traditional plastics for several reasons.
  • Firstly, the raw materials used to produce biodegradable plastics are often more expensive than those used in traditional plastics. For example, PLA biodegradable plastic is typically made from corn starch or sugarcane, which can be more costly than the petroleum-based raw materials used in traditional plastics.
  • Secondly, the production process for biodegradable plastics can be more complex and require specialized equipment. For example, the production of PMU inorganic biodegradable plastic involves high-temperature calcination, which requires significant energy consumption and specialized equipment.
  • Thirdly, the market demand for biodegradable plastics is still relatively low compared to traditional plastics, which can limit economies of scale and increase production costs.
  • However, as technology and production methods continue to improve, the cost of producing biodegradable plastics may decrease, making them a more competitive alternative to traditional plastics. Additionally, the potential environmental benefits of biodegradable plastics may incentivize increased investment and innovation in their production, ultimately driving down costs.
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