The name of Wood Cellulose Fiber may be unfamiliar to many people, but it is within reach in people's work and life. Cellulose is the oldest and most abundant natural polymer on earth, and is the most valuable natural renewable resource that is inexhaustible. Wood Cellulose Fiber has excellent qualities such as non-toxicity, odorlessness, zero pollution, and no radioactivity. It does not affect the environment and is non-toxic to the human body. It is a green and environmentally friendly product, which is not available in other mineral celluloses.
Wood Cellulose Fiber has better performance, is more environmentally friendly, and is beneficial to the long-term development of mankind. Wood Cellulose Fiber are the mainstream materials in the construction of human infrastructure, and are now in a mature production and use stage. At present, the competition among various fiber materials in the infrastructure construction industry is also quite fierce.
What role does Wood Cellulose Fiber play in building materials?
1. Wood Cellulose Fiber is a white or light yellow natural short rod-shaped ultrafine powder. It is non-toxic and odorless, can be burned, and easily absorbs moisture and odor in the air.
2. It has small specific gravity and large specific surface area, and has excellent thermal insulation, heat insulation, sound insulation, insulation and air permeability. It has uniform thermal expansion without peeling or cracking, and has higher wet film strength and covering effect.
3. Wood Cellulose Fiber has strong anti-freeze and heat resistance. When the temperature reaches 150℃, it can insulate for several days; when it reaches 200℃, it can insulate for dozens of hours ; when it exceeds 220℃, it can also insulate for several hours .
4. It is highly inert and will not react with any other materials in the powder material, and only plays a physical role.
5. Insoluble in water, weak acid and alkaline solutions, with a neutral pH value, which can improve the corrosion resistance of the system.
Wood Cellulose Fiber can optimize the performance of building materials, give them new characteristics and functions, and also improve production stability and ease of construction.