1、Theory
By taking the advantage of bamboo charcoal’s porosity and the ability to release far infrared radiation, the nano-size bamboo charcoal powders, which went under a high temperature sintering and be added into plastic particles, can be used as an adsorption, filtration and thermal storage material. Inorganic silver irons were added into pores to provide the merit of antibacterial.
2、Description
1.Native product “Moso Bamboo” as material
, and using the technique from “Council of Agricultural in Taiwan” that doing the carbonization at high temperature inside the soil kiln to produce bamboo charcoal. Utilizing the key technique of nano which is researched by Taiwan Textile Research Institute, bamboo charcoal will be grinded into powder and add in inorganic silver irons to make PET master batch. This kind of bamboo charcoal yarn which underwent nano-grade grinding process has not only dense structure, more pores, but also contains abundant of minerals, being able to release far infrared radiation, possesses functions of heat storage and deodorant. Test report shows that the far infrared radiation heating value of bamboo charcoal can be 8℃ or more, indicates that it is a excellent heat-accumulating textile.
In addition, the silver irons within the master batch have good antibacterial effect against E. coli, Staphylococcus and Pseudomonas aeruginosa.
Since the material is not dipped on the surface but evenly distributed in the fiber structure, it has good fastness to laundering and can be washed in any way without affecting the function. There is also good workability and dying affinity.
2.Color: Dark grey
3、Main Ingredients
Bamboo charcoal, inorganic nano silver, PET
4、Function
Strong adsorption, deodorant, alter humidity, heat storage and antibacterial effect.
5、Properites
1.Density: Bamboo charcoal 10%
2.Basic Specification
TYPE | Copolymer |
I.V. ([η]) | 0.50±0.02 |
Moisture Content (wt %) | <0.5 |
Melting Point(℃) | 246±4 |
Molding Temp.( ℃) | 275-285 |
Acid Value (COOH)( 10-6equ/g) | 30MAX |
6、Precautions
Keep away from sunlight. Avoid inclusions such as Cl-, NO3-, which tend to react with silver ions.
1、Theory
Silver has been proven as a natural bactericidal material. However, since the buckle silver lacks surface activity, it is necessary to add a large amount of silver to get the effect of sterilization, which makes it lack cost efficiency in the production process, the usage and the appearance. These shortcomings well be greatly improved if the size of buckle silver can be reduced to nano-scale. After the silver is nanosized, these nanoparticles obtain high chemical activity owing to the scarcity of surface atomic coordination which provides it substantial increase in surface potential energy. Moreover, the smaller the particles are, the more amounts the atoms will be exposed to the surface, and the stronger the bactericidal ability will be.
2、Description
First of all, coats nano-size inorganic silver ions with special base material to make it a powdery material with high temperature resistance and fine chemical durability. Secondary, add powder into plastic such as TPU, PET to produce master batch. The silver irons within the master batch have good antibacterial effect against E. coli, Staphylococcus and Pseudomonas aeruginosa.
3、Main Ingredients
Nano silver antibacterial powder, plastic particles
4、Function
Good antibacterial effect against E. coli, Staphylococcus and Pseudomonas aeruginosa.
5、Features
1.High safety (No volatile), good heat resistance, more safety toward human body
2.For PET – since the material is not dipped on the surface but evenly distributed in the fiber structure, it has good fastness to laundering and can be washed in any way without affecting the function. There is also good workability and dying affinity.
3.Basic Specification
TYPE | Copolymer |
I.V. ([η]) | 0.50±0.02 |
Moisture Content (wt %) | <0.5 |
Melting Point(℃) | 246±4 |
Molding Temp.( ℃) | 275-285 |
Acid Value (COOH)( 10-6equ/g) | 30MAX |
6、Precautions
Keep away from sunlight. Avoid inclusions such as Cl-, NO3-, which tend to react with silver ions.