union thailand Engineering (1977) Co., Ltd

Union Thailand Engineering (1977) Co., Ltd was founded in 1977 with its office located in Bangkok where is a center of the commercial city. We are a member of Tri Union Management in Hong Kong.
From the beginning, in 1960 we do the business under the name Union Thai. In 1977, we established our name as Union Thailand Engineering (1977) Co., Ltd until now with more than 50 years we are most successful in the textile market along with our legendary customers in this industry and always learn every change in this business. We are ready to move forward with all the technologies that benefit you and we will not stop at just textiles industry. We continue to learn and build on nonwoven and sustainable business as well.
We are looking forward to growing the business together with you!!

NATURAL

Natural fibres are obtained from natural resources such as plants, animals, and minerals. Natural fibres have been used by humans for thousands of years to make clothing, shelter, and other essential items.

Classification of Natural Fibres:

Cellulosic fibres: These fibres are made from cellulose, the main component of plant cell walls. Examples include cotton, flax, and hemp.
Protein fibres: These fibres are made from protein, and are typically obtained from animals. Examples include wool and silk.

Plant fibres: Plant fibres are obtained from the stem, leaves, and bark of various plants. Examples include cotton, hemp, flax, jute, ramie, bamboo, and sisal.
Animal fibres: These fibres are obtained from the hair, fleece, or silk of various animals. Examples include wool, silk, alpaca, llama, and angora rabbit.
Mineral fibres: Mineral fibres are obtained from minerals. Examples include asbestos and glass fibres.
Microorganism fibres: Those are obtained from microorganisms, such as algae and bacteria.
Natural composite fibres: Composite fibres are made from a combination of different materials, such as wood fibres mixed with resin, or coconut fibres mixed with rubber.

Synthetic

Synthetic materials are made by chemically changing the starting substances to create a material with different characteristics.

Synthetic fibers have good elasticity.
Synthetic fibres are very durable and do not wrinkle easily
Fabrics made from these fibres are less expensive, durable and readily available in comparison to natural fibers.
Synthetic fibers can handle the heavy load without breaking.
Synthetic fibers blend well with other fibres and They don’t shrink

Synthetic fibres classifie based on their physical property

Continuous Filament fibres: These fibres are produced in long, continuous strands and can be further classified based on the number of filaments per fibre. They are strong and durable, and are often used in industrial and technical applications.
Staple fibres: Staple fibres are produced in short lengths, and are often used in textiles and clothing. Staple fibres can be spun into yarns, which can be further processed into fabrics.
Bulked Continuous Filament (BCF) fibres: These fibres are similar to continuous filament fibres, but have a crimped or bulked structure, making them soft and voluminous. They are often used in carpeting and upholstery applications.
Textured fibres: Synthetic fibres have a surface texture that enhances their bulk and softness. They are often used in clothing, particularly in sportswear and activewear, as well as in upholstery and home furnishings.
Microfiber: These are very fine fibres that have a high surface area to volume ratio. They are often used in technical and industrial applications