01
Particle Size
SANSIL™ MP-01 consists of approximately 100 nm spherical polymethylsilsesquioxane particles, produced with our proprietary technology.
Silicone fine particle SANSIL™ MP-01
About About Silicone fine particle
02
Heat Resistance
SANSIL™ MP-01 has superior heat resistance compared to organic particles, showing almost no weight change even at 400℃.
03
High Dispersibility
With appropriate dispersion techniques, the particles can be dispersed down to their primary particle size.
04
Lubricity
It has excellent dispersibility in various rubbers and plastics, and can provide surface smoothness and abrasion resistance.
05
Flexibility
It is softer than inorganic particles such as silica.
Overview
SANSIL™ MP-01 consists of approximately 100 nm spherical polymethylsilsesquioxane particles, featuring a three-dimensional network structure represented by (CH3SiO3/2)n.
This structure exhibits a hybrid nature between inorganic and organic materials, with one methyl group bonded to each silicon atom.
As a result, SANSIL™ MP-01 offers lower specific gravity and greater flexibility compared to silica. Additionally, the particle surface is functionalized with trimethylsilyl groups, providing excellent hydrophobicity.
Structural Image
It is softer than inorganic particles such as silica.
Basic Physical Properties
SANSIL™ MP-01
- Product Name
- SANSIL™ MP-01
- Shape
- Spherical
- Particle Size (nm)
- 130
- True Density(g/cm3)
- 1.3
- Hydrophobicity(vol.%)
- 65
- Moisture Content(%)
- 1.0
- Refractive Index
- 1.43
- Oil Absorption Volume(g/100g)
- 75
This data represents typical values and is not guaranteed.
Point
Sharp Particle Size Distribution
Our proprietary technology ensures a sharp particle size distribution.
Measurement Method: Laser Diffraction Scattering
Interval frequency
Cumulative frequency
High Solvent Resistance
It does not swell or dissolve in most organic solvents.
Excellent Heat Resistance
Even when heated up to 1000 °C, the weight loss is approximately 15%.
| Heating Temperature | Weight Change Ratio |
|---|---|
| 350℃ | 3wt.% |
| 1000℃ | 15wt.% |
This data represents typical values and is not guaranteed.
Applications
Toners
Electrostatic control, Improvement of fluidity and durability
Films
Anti-blocking performance, Improving surface slip, Heat resistance
Paints and Coatings
Surface slip properties, Providing water repellency
Rubbers
Providing abrasion resistance, Improving surface slip of rubber
* The values and images are examples based on our tests and do not guarantee quality.