A method for producing a yarn from sugarcane is provided, which includes at least the following steps: S1: separating bagasse and a sugarcane juice produced by pressing sugarcane, and dividing the bagasse into two parts, one part being used for extracting natural fibers from the sugarcane and the other part being used for extracting starch fibers from the sugarcane; 2: extracting natural fibers from the sugarcane to obtain a raw material for preparing long fibers; S3: extracting starch fibers from the sugarcane to obtain a raw material for preparing short fibers; S4: softening the raw material of long fibers and the raw material of short fibers, through matched application of corresponding processing methods, the bagasse left after the processing of sugarcane products can be conveniently reused, and the reused bagasse is treated for yarn preparation, such that the output of waste materials during the production process is reduced.

A method for producing a yarn from sugarcane is provided, which includes at least the following steps: S1: separating bagasse and a sugarcane juice produced by pressing sugarcane, and dividing the bagasse into two parts, one part being used for extracting natural fibers from the sugarcane and the other part being used for extracting starch fibers from the sugarcane; 2: extracting natural fibers from the sugarcane to obtain a raw material for preparing long fibers; S3: extracting starch fibers from the sugarcane to obtain a raw material for preparing short fibers; S4: softening the raw material of long fibers and the raw material of short fibers, through matched application of corresponding processing methods, the bagasse left after the processing of sugarcane products can be conveniently reused, and the reused bagasse is treated for yarn preparation, such that the output of waste materials during the production process is reduced.

The present disclosure provides methods for making synthetic hair compositions. The methods generally comprise providing a plant fiber, degumming the plant fiber, and dyeing the plant fiber. The present disclosure also provides methods of degumming banana fiber. The methods generally comprise providing banana fiber and soaking the banana fiber in a degumming solution comprising a base, magnesium sulfate, and hydrogen peroxide. The present disclosure further provides methods of dyeing banana fibers. The present disclosure further provides synthetic hair compositions comprising banana fibers made by the methods described herein.

A method for producing a yarn from sugarcane is provided, which includes at least the following steps: S1: separating bagasse and a sugarcane juice produced by pressing sugarcane, and dividing the bagasse into two parts, one part being used for extracting natural fibers from the sugarcane and the other part being used for extracting starch fibers from the sugarcane; 2: extracting natural fibers from the sugarcane to obtain a raw material for preparing long fibers; S3: extracting starch fibers from the sugarcane to obtain a raw material for preparing short fibers; S4: softening the raw material of long fibers and the raw material of short fibers, through matched application of corresponding processing methods, the bagasse left after the processing of sugarcane products can be conveniently reused, and the reused bagasse is treated for yarn preparation, such that the output of waste materials during the production process is reduced.

A method for producing a yarn from sugarcane is provided, which includes at least the following steps: S1: separating bagasse and a sugarcane juice produced by pressing sugarcane, and dividing the bagasse into two parts, one part being used for extracting natural fibers from the sugarcane and the other part being used for extracting starch fibers from the sugarcane; 2: extracting natural fibers from the sugarcane to obtain a raw material for preparing long fibers; S3: extracting starch fibers from the sugarcane to obtain a raw material for preparing short fibers; S4: softening the raw material of long fibers and the raw material of short fibers, through matched application of corresponding processing methods, the bagasse left after the processing of sugarcane products can be conveniently reused, and the reused bagasse is treated for yarn preparation, such that the output of waste materials during the production process is reduced.

The present invention relates to a barrier red algae fiber, a method for preparing the same, and a barrier coated paper and a barrier sheet comprising the same. The barrier coated paper according to the present invention not only has better oxygen barrier properties and dehydration properties during a coating process than conventional wood derived nanocellulose, but is also environmentally friendly because it has biodegradable properties.

The present invention relates to a barrier red algae fiber, a method for preparing the same, and a barrier coated paper and a barrier sheet comprising the same. The barrier coated paper according to the present invention not only has better oxygen barrier properties and dehydration properties during a coating process than conventional wood derived nanocellulose, but is also environmentally friendly because it has biodegradable properties.

Bio-textile material from filamentous algae. The invention provides a non-woven bio-textile composed of a single or multiple layers, including surface and structural layers, incorporating pre-treated algae, seaweed, natural fillers, and other additives wherein a specific weight ratio of algae and/or seaweed to natural fillers is maintained to achieve different level of thickness in the prepared bio-textile. The prepared bio-textile has good tensile and tearing strength in the range of 100-200 N/mm and 50-80 N/mm, respectively such that it can be used to produce different types of apparels. The process of preparation of the bio-textile using eco-friendly materials comprises the steps of harvesting, pre-treatment, slurry preparation, structural layer and double layer formation, drying and finishing steps.

Bio-textile material from filamentous algae. The invention provides a non-woven bio-textile composed of a single or multiple layers, including surface and structural layers, incorporating pre-treated algae, seaweed, natural fillers, and other additives wherein a specific weight ratio of algae and/or seaweed to natural fillers is maintained to achieve different level of thickness in the prepared bio-textile. The prepared bio-textile has good tensile and tearing strength in the range of 100-200 N/mm and 50-80 N/mm, respectively such that it can be used to produce different types of apparels. The process of preparation of the bio-textile using eco-friendly materials comprises the steps of harvesting, pre-treatment, slurry preparation, structural layer and double layer formation, drying and finishing steps.

A composition comprising harvested cotton fiber from cotton cells elongated in a bioreactor, wherein the cotton fiber has a trash content of less than 250 Count/gram (Cnt/g) dry mass is disclosed. Also disclosed are in vitro methods for producing cotton fiber with a low trash content at harvest.