Environmentally Friendly

Polymerhemp

PolymerHemp is a polymer science technology focused on composites made from renewable sources. A biocomposite is formed by a base matrix (resion) and reinforced by natural hemp fibers.

bioplastic

The potentiality of natural plants in replacing traditional and mineral fillers as reinforcements in plastic matrix composites is in its infancy.

Much interest has been seen with biocomposites materials due to the significant rapid renewability of resources.

For example, as a non-renewable resource, glass fibers have been used for some time and since their inception, a number of limitations have been evident, such as high energy consumption, processing difficulties, poor recycling properties and poor degradability.

Furthermore, glass fiber particles have shown to cause environmental pollution and is a considerable health hazard.

What are the benefits of choosing bioplastics?

The potentiality of natural plants in replacing traditional and mineral fillers as reinforcements in plastic matrix composites is in its infancy.

Much interest has been seen with biocomposites materials due to the significant rapid renewability of resources.

For example, as a non-renewable resource, glass fibers have been used for some time and since their inception, a number of limitations have been evident, such as high energy consumption, processing difficulties, poor recycling properties and poor degradability.

Furthermore, glass fiber particles have shown to cause environmental pollution and is a considerable health hazard.

Why opt for 'PolymerHemp' bioplastics?

The potentiality of natural plants in replacing traditional and mineral fillers as reinforcements in plastic matrix composites is in its infancy.

Much interest has been seen with biocomposites materials due to the significant rapid renewability of resources.

For example, as a non-renewable resource, glass fibers have been used for some time and since their inception, a number of limitations have been evident, such as high energy consumption, processing difficulties, poor recycling properties and poor degradability.

Furthermore, glass fiber particles have shown to cause environmental pollution and is a considerable health hazard.

The potentiality of natural plants in replacing traditional and mineral fillers as reinforcements in plastic matrix composites is in its infancy.

Much interest has been seen with biocomposites materials due to the significant rapid renewability of resources.

For example, as a non-renewable resource, glass fibers have been used for some time and since their inception, a number of limitations have been evident, such as high energy consumption, processing difficulties, poor recycling properties and poor degradability.

Furthermore, glass fiber particles have shown to cause environmental pollution and is a considerable health hazard.

Medical

The potentiality of natural plants in replacing traditional and mineral fillers as reinforcements in plastic matrix composites is in its infancy.

Much interest has been seen with biocomposites materials due to the significant rapid renewability of resources.

For example, as a non-renewable resource, glass fibers have been used for some time and since their inception, a number of limitations have been evident, such as high energy consumption, processing difficulties, poor recycling properties and poor degradability.

Furthermore, glass fiber particles have shown to cause environmental pollution and is a considerable health hazard.

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