Designing for the circular economy

Creating a product with recyclable materials and a design that considers future recycling is one of the key aspects of the circular economy. This approach not only reduces the environmental impact during the production and use phase, but also facilitates the management of the product at the end of its useful life, allowing it to be recovered and returned to the production cycle. Here is how to approach the design of a product from a recycling perspective.

Recyclable materials: Sustainability through material selection

Choosing easily recyclable materials: The first step in designing a circular product is the choice of materials. It is important to choose materials that are easily separable, reusable, and have a recyclable life cycle. For example:

Metals: Metals such as aluminum and steel are highly recyclable and can often be reused without loss of quality.
Plastics: Use mono-material plastics (such as PET or HDPE), which are easier to recycle than mixed plastics or plastics with additives that are difficult to separate.

Design for recycling: Making it easier to separate and recover materials

Modular and easily disassemblable designs: Designing products with easily separable components makes it easier to collect and separate materials during the recycling process. For example, design electronic devices that can be easily disassembled to separate metal, plastic, glass and other materials before recycling.

Facilitate post-consumer recycling

End of life recyclability: Designing with recycling in mind also means thinking about how the product will be handled at the end of its life. It is important that the product is easy to disassemble and that its materials can be separated easily and efficiently.

Economics of recycled materials

Use recycled materials in new products: Incorporating recycled materials into new products is one way to close the life cycle and promote the circular economy. For example, using recycled plastic or recovered metal to make new items is a practice that reduces the demand for virgin raw materials and lowers environmental impact.

Recycling innovation: Research and development of new recycling processes, such as recycling using densimetric technology, can increase the quality and variety of recycled materials, making it even easier and more beneficial to use recovered materials.

Collaboration between designers, manufacturers and recyclers

Partnerships with recycling equipment manufacturers: To ensure that product design is optimized for recycling, partnerships with our company–MG Recycling–are useful to provide feedback on how to improve material separation and processing, as well as to suggest practical solutions for end-of-life material recovery.

Conclusion

Designing a product with recycling in mind and using recyclable materials is essential to reduce environmental impact and contribute to the circular economy. Good design should facilitate material separation, extend the useful life of the product, encourage reuse, and ultimately ensure that the product is easily recyclable at the end of its life cycle. This promotes a sustainable industrial system that helps reduce waste and conserve natural resources.