Source Buy Sell Plastics, virgin, reprocessed, regrind, scrap plastic

What FDA Non-Objection Letter Approval for Food Use of PCR 20 MI Homo PP Means for Packaging Producers

The FDA’s Non-Objection Letter (NOL) approval for PCR 20 MI Homo PP (Recycled Polypropylene – rPP) is a significant certification that brings considerable benefits to packaging producers aiming to meet sustainability goals without compromising safety or quality.

Key Benefits for Packaging Producers

  1. Expanded Application Range: The approval means that Plastiko’s rPP can be safely used across a wide spectrum of food packaging scenarios, including frozen foods, hot-fill containers, and microwaveable products. This versatility allows producers to use one material for multiple applications, reducing complexity and inventory management challenges.
  2. Support for Sustainability Goals: With the growing demand for sustainable solutions, this FDA-approved rPP offers packaging producers a way to incorporate recycled materials into their products. By reducing reliance on virgin materials, producers can lower their environmental impact while meeting consumer and regulatory demands for eco-friendly solutions.
  3. Assurance of Safety and Compliance: Achieving FDA approval for food contact materials is a rigorous process that demonstrates the safety and reliability of the material. Packaging producers can confidently offer products that meet the highest food safety standards, reinforcing trust with their customers and end consumers.
  4. Market Differentiation: Utilizing FDA-approved recycled materials like Plastiko’s PCR Homo PP allows packaging producers to differentiate their offerings in a competitive market. With consumers increasingly prioritizing sustainability, this certification can be a valuable selling point.
  5. Economic Efficiency: Using recycled polypropylene reduces costs associated with virgin resin procurement and aligns with circular economy principles, making it a cost-effective and environmentally responsible choice.

Plastiko, Inc. now has the FDA Non-Objection Letter approval of PCR 20 MI Homo PP. This is more than just a certification; it’s a validation of the material’s quality, safety, and suitability for modern food packaging needs. For packaging producers, this represents an opportunity to create sustainable, compliant, and high-performance packaging solutions that meet evolving market demands while supporting a greener future. Contact us how we can help you incorporate recycled material in your food packaging: 314-558-6700

Plastiko Inc. Receives FDA Non-Objection Letter for Food Contact Use of Its PCR 20 MI Homo PP(Recycled Polypropylene -rPP)

Plastiko Inc. is proud to announce that it has received an FDA Non-Objection Letter Approval for Food Use its PCR 20 MI Homo PP (Recycled Polypropylene -rPP). This certification confirms its suitability for contact with all food types under Conditions of Use A through H, making it a significant achievement in sustainable packaging solutions.

This milestone underscores Plastiko’s commitment to innovation and sustainability, providing high-quality recycled materials that meet stringent safety and regulatory standards. The approved material offers manufacturers a reliable, eco-friendly option for food-contact applications, supporting the industry’s shift toward greener practices.

“We’re excited to achieve this milestone, which demonstrates our dedication to both safety and sustainability,” said David Nikolas, Founder of Plastiko Inc. “This approval allows us to support our partners in developing sustainable packaging solutions that meet today’s environmental and regulatory demands.”

For more information about Plastiko Inc. and its sustainable product offerings, visit https://plastikoinc.com or call us today: 314-558-6700

About Plastiko Inc.

Plastiko Inc. specializes in innovative and sustainable recycled plastic resins, delivering high-quality solutions for a wide range of industries. Dedicated to environmental stewardship, Plastiko is driving change in the plastics industry with a focus on safety, sustainability, and performance.

🌍 Sustainable Solutions, Exceptional Value

🌍 Sustainable Solutions, Exceptional Value

Since our founding in 2008 in St. Louis, MO, Plastiko Inc. has grown from a regional supplier to a trusted North American provider of high-quality concentrates and specialty materials made from recycled plastics. 🌱

Our journey started with a vision: to focus on manufacturing with recycled materials and support manufacturers committed to sustainability. Today, we continue to thrive, achieving double-digit growth year after year by sourcing and distributing recycled plastics that fuel new product innovations.

At Plastiko, we’re dedicated to helping manufacturers and recyclers unlock the potential of scrap and excess materials, identifying new applications where recycled plastics can make a meaningful impact. ♻️

Our mission is simple: to provide the best solutions, exceptional value, and sustainable choices for our customers and the planet. 🌎

🔗 Discover more about the materials we work with: plastikoinc.com

#Sustainability #RecycledMaterials #Manufacturing #Innovation #PlastikoInc #CircularEconomy

Exploring the Future of Packaging: Organic Matter Alternatives to Plastic

In recent years, the environmental impact of traditional plastic packaging has driven innovation toward more sustainable alternatives. One promising avenue is the development of packaging made from organic matter such as fungi, hemp, and other environmentally friendly materials. These alternatives aim to reduce the reliance on petroleum-based plastics, which are notorious for their long degradation periods and contribution to pollution. As consumers become more eco-conscious, the demand for sustainable packaging solutions continues to grow, pushing the boundaries of what is possible with organic materials.

Fungi-based packaging is an exciting development in the realm of green materials. Companies are harnessing the natural properties of mycelium, the root structure of mushrooms, to create biodegradable and compostable packaging. Mycelium grows quickly and can be molded into various shapes, making it a versatile alternative to plastic. This material is not only biodegradable but also requires less energy to produce compared to traditional plastics, offering a double benefit of reduced carbon footprint and waste. However, scaling up production to meet commercial demands remains a challenge that needs to be addressed.

Hemp is another organic material gaining traction as a potential replacement for plastic packaging. Known for its durability and renewability, hemp can be processed into a variety of forms suitable for packaging. Its cultivation also benefits the environment by improving soil health and requiring fewer pesticides compared to conventional crops. Despite its advantages, the economic viability of hemp packaging is still under scrutiny. The production costs are currently higher than those of traditional plastics, making it less competitive in the market. Continued research and development are essential to bring down costs and make hemp-based packaging a feasible option for widespread use.

PLA (Polylactic Acid) and PHA (Polyhydroxyalkanoates) bio-plastics, derived from renewable resources such as corn flour, rice flour, and potatoes, are increasingly being used as sustainable alternatives to conventional plastics in packaging. These bio-plastics offer significant environmental benefits, including reduced carbon footprint and biodegradability. By leveraging agricultural by-products, PLA and PHA help to minimize waste and reliance on fossil fuels. In packaging applications, these materials provide comparable performance to traditional plastics while ensuring that the end-of-life impact is substantially lower, contributing to a circular economy and reducing pollution. Their versatility and eco-friendly nature make them ideal for various packaging needs, from food containers to disposable cutlery and beyond.

One significant challenge is cost; producing PLA and PHA bio-plastics is often more expensive than traditional petroleum-based plastics, primarily due to the complex processes involved in converting renewable resources into bio-plastics. Additionally, these bio-plastics can have lower mechanical strength and heat resistance compared to conventional plastics, limiting their applicability in certain packaging scenarios.

Another challenge is the infrastructure required for effective composting and recycling of bio-plastics. While PLA and PHA are biodegradable under specific conditions, they often need industrial composting facilities to break down efficiently, which are not universally available. Mismanagement in waste disposal can lead to these bio-plastics ending up in landfills or natural environments, where they do not degrade as quickly as intended.

Overcoming these challenges requires advancements in production technology, development of better end-of-life management systems, and sustainable agricultural practices to ensure that the overall impact of bio-plastics is genuinely beneficial to the environment.

While these organic matter alternatives hold significant promise for the future, they are not without their challenges. The primary hurdle is the economic feasibility of scaling production to match the affordability of plastic. The infrastructure and technology required to produce organic packaging materials are still in their infancy, necessitating substantial investment and innovation.

As the industry evolves, it is imperative to find a balance between environmental benefits and economic viability in order make organic material packaging a mainstream solution.

Contact us if you wish to explore recycled resins for your plastic products: 314-558-6700

Eliminating Spotted Marks in Recycled Products: Strategies for Success

Recycling plastics is a critical part of sustainability efforts, but the process can introduce challenges such as spotted marks in recycled products. These imperfections can affect the aesthetic quality and perceived value of the final products. However, there are effective strategies to eliminate or overcome these challenges:

1. Improved Sorting and Cleaning

One of the primary reasons for spotted marks is contamination. Implementing advanced sorting technologies, such as near-infrared (NIR) spectroscopy, can enhance the purity of recycled materials by accurately identifying and separating different types of plastics. Additionally, thorough cleaning processes are essential to remove contaminants like dirt, labels, and adhesives that can cause spots.

2. Optimized Compounding Processes

During the recycling process, blending different batches of plastic can result in inconsistent material properties. By optimizing the compounding process and ensuring consistent mixing, it is possible to achieve a more uniform appearance. Utilizing high-quality additives and stabilizers can further enhance the homogeneity of the recycled material.

3. Melt Filtration Systems

Melt filtration is a crucial step in eliminating impurities that cause spotted marks. Advanced filtration systems can remove fine particles and contaminants from the molten plastic, resulting in a cleaner end-product. Regular maintenance and replacement of filters are necessary to maintain the effectiveness of this process.

4. Color Matching and Masterbatch Solutions

Variations in color can highlight imperfections in recycled products. Implementing precise color matching techniques and using high-quality masterbatches can help achieve a consistent color throughout the material. This reduces the visibility of any residual spots and improves the overall appearance.

5. Innovative Recycling Technologies

Emerging technologies, such as chemical recycling, offer new possibilities for creating high-quality recycled plastics. Chemical recycling breaks down plastics into their original monomers, allowing for the production of virgin-quality polymers. This process can significantly reduce the occurrence of spotted marks and enhance the overall quality of recycled products.

6. Quality Control and Testing

Implementing rigorous quality control measures throughout the recycling process is essential to identify and address any issues early on. Regular testing for contaminants, color consistency, and material properties can help ensure that the final products meet the desired standards.

By adopting these strategies, manufacturers can effectively overcome the challenges associated with spotted marks in recycled products. As the industry continues to innovate and improve recycling processes, the quality and appearance of recycled plastics will undoubtedly reach new heights, contributing to a more sustainable and aesthetically pleasing future.


These approaches not only improve the visual quality of recycled products but also enhance consumer trust and acceptance of recycled materials, paving the way for a more sustainable plastics industry. For more help in obtaining quality recycled resins or assistance in overcoming the challenge of spotted marks contact Plastiko, Inc. today at https://plastikoinc.com/contact/

Recycled Engineered Plastic Resins: Applications and Benefits

Recycled engineering plastics are like commodity plastic but have a better mechanical and thermal properties. These resins have become an essential component in the effort to create more sustainable and eco-friendly materials and are derived from post-consumer or post-industrial plastic waste, processed, and engineered to meet specific performance standards. Their use spans a variety of industries, each benefiting from the durability, versatility, and environmental advantages of these recycled materials.

1. Automotive Industry

In the automotive sector, recycled engineered plastic resins are used to manufacture various components, such as bumpers, dashboards, and interior trim. These materials provide the necessary strength and resilience while reducing the overall weight of vehicles, which can enhance fuel efficiency. Additionally, using recycled resins helps automotive manufacturers meet stringent environmental regulations and sustainability goals.

2. Consumer Electronics

The consumer electronics industry utilizes recycled plastic resins in the production of casings, connectors, and internal components of devices such as smartphones, laptops, and household appliances. These resins offer high impact resistance and thermal stability, ensuring that electronic products are durable and long-lasting. By incorporating recycled materials, electronics manufacturers can reduce their environmental footprint and promote recycling initiatives.

3. Construction

In construction, recycled engineered plastic resins are employed in the production of building materials such as pipes, insulation, and roofing membranes. These materials offer excellent durability, weather resistance, and insulation properties, making them suitable for a wide range of construction applications. Using recycled plastics in construction not only reduces the environmental impact but also contributes to creating energy-efficient and sustainable buildings.

4. Textiles

The textile industry uses recycled plastic resins to create fibers for fabrics used in clothing, upholstery, and carpeting. These fibers can be woven into various textures and patterns, providing both aesthetic appeal and functional performance. Recycled plastic fibers help reduce the dependence on traditional textile materials, such as cotton and wool, and support the development of a circular economy in the fashion industry.

6. Furniture

Recycled engineered plastic resins are also used in the manufacturing of furniture, including chairs, tables, and storage units. These materials offer strength, flexibility, and ease of maintenance, making them ideal for both indoor and outdoor use. By incorporating recycled plastics into furniture production, manufacturers can create products that are not only stylish and functional but also environmentally responsible.

Conclusion

Recycled engineered plastic resins play a crucial role in promoting sustainability across various industries. Their versatility, durability, and environmental benefits make them an attractive alternative to traditional materials. As technology advances and recycling processes become more efficient, the applications of recycled plastic resins are expected to expand, further contributing to a more sustainable and eco-friendly future.

Plastiko, Inc purchases, formulates and distributes engineering plastic raw materials for a variety of purposes. These resins include ABS Nylon (Nylon 6, Nylon 66, Nylon 11, Nylon 12) PBT PC SAN ASA TPE (TPV, TPO, SEBS, TPU, COPE). Contact us today to determine how we can help you find a recycled engineering resin for your applications: https://plastikoinc.com/contact/

Brief Overview of Methods to Remove Odor in Recycled Plastics

The smell of recycled plastics has been a persistent issue that impacts both manufacturers and consumers. When plastics are recycled, they often retain odors from their previous use, such as food, chemicals, or other substances. These smells can be particularly off-putting and can limit the applications for which recycled plastics can be used.

For instance, in food packaging or consumer goods, the presence of unpleasant odors can significantly deter consumers, affecting the marketability and acceptance of products made from recycled materials. Addressing the odor issue is crucial for the broader adoption of recycled plastics and for promoting sustainability.

Removing odor from recycled plastics involves several processes aimed at eliminating contaminants and volatile organic compounds (VOCs) that cause unpleasant smells. Here are some of the most effective methods used in the industry:

Washing and Cleaning: The initial step in odor removal is thorough washing and cleaning of the plastic waste. This involves using hot water and detergents to remove surface contaminants, oils, and residues from the plastics. Mechanical washing systems with high agitation are often employed to ensure that all debris and foreign substances are effectively scrubbed off the plastic surfaces.

Thermal Decomposition: Another method is thermal decomposition, where the plastics are heated to high temperatures to break down and volatilize the odor-causing compounds. This process can be done in a controlled environment to ensure that the VOCs are captured and treated rather than released into the atmosphere. Thermal processes like pyrolysis and gasification can also be used to convert the plastic into a more stable form with fewer odors.

Chemical Treatment: Chemical treatment involves using various chemical agents to neutralize or remove odors. These agents can react with the odor-causing compounds to either break them down or mask their smell. Common chemicals used include oxidizing agents like ozone, hydrogen peroxide, or chlorine dioxide, which can effectively neutralize many organic odors.

Vacuum Stripping and Degassing: In this process, the plastic is heated in a vacuum chamber, causing the volatile compounds responsible for odors to evaporate. The vacuum environment reduces the boiling points of these compounds, allowing them to be removed at lower temperatures. This technique is particularly effective for removing deeply embedded odors that cannot be washed away.

By combining these methods, manufacturers can significantly reduce or eliminate the odors from recycled plastics, making them suitable for a wide range of applications. Each technique addresses different types of contaminants and odors, and often, a combination of methods is used to achieve the best results. The advancements in these odor removal technologies are crucial for increasing the acceptance and use of recycled plastics in various industries.

Whether you are a manufacturer looking for materials for consumer goods, food packaging, or industrial components, Plastiko, Inc. can provide you with a reliable source of recycled plastics without odors.

By choosing Plastiko, Inc., businesses can confidently contribute to a circular economy while ensuring that their products remain appealing and functional, free from the distracting and unpleasant smells that can plague lesser-quality recycled plastics. Give us a call to learn more: 314-558-6700