CA2407880A1 - Process to manufacture high impact natural composites - Google Patents

Abstract

The use of natural fibers as reinforcing filler in thermoplastics is a relatively new innovation and has great potential to replace glass fiber products in building, consumer goods, furniture and automotive industry. Our published results demonstrated that laying natural fiber mat and polymer film in a definite pattern and orientation can enhance mechanical strength. In this invention, an unique process has been developed to manufacture high impact strength composite that contains loose natural fiber and/or a combination of loose natural fiber and natural fiber mat to develop green composites outstanding impact strength and other mechanical properties. Loose fibers used in this process can be obtained from agro-plant and wood. Mats, if used, can be obtained from similar sources. Polymer those are used include thermoplastic polyolefins (TPOs), acrylic and polyester films. This invention is specially useful for natural composites with natural fiber content above 40% by weight up to 93 wt% fiber. Film stacking and fiber spraying methods were used to construct sheet, laminates and thermoforming and compression molding were used to design a product. A range of impact strength was obtained which varies from 100 J/m to as high as 250 J/m with a significant increase in flexural and tensile strengths. Products having uniform density profiles yield maximum enhancement in impact properties.

Claims (12)

1. A manufacturing process to produce thermoplastic composite in which reinforcement fibers in the form of loose bundle layers are stacked alternately with thermoplastic matrix, whereby each layer of loose fiber is covered by at least one film or foil of matrix material on each side, thereafter hot pressing the alternate film stack/lay-up at high temperature followed by cooling under same consolidation pressure to manufacture desired composite material, characterized in that the loose, random, and un-processed fibers are used and distributed evenly in the said film stacking arrangement where each layer of fiber and matrix material has equal pre-defined quantity by weight.

2. A process according to claim 1, characterized in that fiber mats can be used in similar lay-up method.

3. A process according to claim 1, characterized in that interfacial bonding between cellulose fibers and matrix is introduced by using pre-treated matrix films with maleic-anhydride polymers of polypropylene (MA-PP) or polyethylene (MA-PE).

4. A process according to claim 1 and 2, characterized in that reinforcement fibers fall in one of following categories:
a. Cellulose bast fibers obtained from plants of hemp, flax, kenaf, sisal and jute.
b. Agri-residue fibers, such as rice husk and wheat straw.
c. Virgin or recycled wood fibers.

5. A process according to claim 1 to 3, characterized in that matrix selected is from thermoplastic family of polymers consisting either of homo polypropylene (PP) or co-polymers of polypropylene and polyethylene.

6. The thermoplastic polymer manufactured through the said inventive process consists essentially the following:
1. Alternate stacked layers of loose ligno-cellulose fibers and/or mats in combination with thermoplastic matrix films distributed evenly in stacked lay-up.
2. The matrix films may or may not be treated with coupling agent.

7. The manufacturing process of compression molding consists following steps:
1. Film stacking of fiber layers and matrix films in alternate arrangement in such a way that each layer of natural fibers is covered on both sides by at least one film of matrix.
2. Hot pressing of film stack at elevated temperature and pressure followed by cooling under same consolidation to manufacture desired thermoplastic composite.

8. Thermoforming process can be also used to make three dimensional/intricate products by using same raw materials as mentioned in claim 4 and 5.

9. In the product of claim 6, the reinforcement material belongs to any of plant fibers, agri-residuals or virgin/recycled wood fibers as mentioned in claim 4.

10. The matrix in the product of claim 6 is essentially of thermoplastic family as mentioned in claim 5.

11. The coupling agents in the product of claim 6 can be either impregnated into thermoplastic films or cellulose fibers as mentioned below:
a. The matrix is treated with maleic-anhydrie co-polymers of polypropylene or polyethylene.
b. Reinforcement fibers can be treated with Silane solutions through quick aqous method if required.

12. The commercial use of said product according to any claims 6 to 10 in auto sector, general purpose household, upholstery and semi-structural construction applications as mentioned in potential application section.