| 1022 |
SiO2 |
IOTA Silicone Oil |
IOTA FINE SIL519 |
3 |
Fumed silica |
Purity(%) |
> 90 |
- |
바로가기 |
| 3 |
Fumed silica |
Moisture(%) |
4~8 |
- |
| 3 |
Fumed silica |
pH |
6.5-7.5 |
- |
| 3 |
Fumed silica |
Specific surface area(m2/g) |
200-220 |
- |
| 3 |
Fumed silica |
Iron Content(ppm) |
< 300 |
- |
| 1021 |
SiO2 |
IOTA Silicone Oil |
IOTA FINE SIL518 |
5 |
Fumed silica |
Purity(%) |
> 90 |
- |
바로가기 |
| 5 |
Fumed silica |
Moisture(%) |
4~8 |
- |
| 5 |
Fumed silica |
pH |
6.5-7.5 |
- |
| 5 |
Fumed silica |
Specific surface area(m2/g) |
200-220 |
- |
| 5 |
Fumed silica |
Iron Content(ppm) |
< 300 |
- |
| 1020 |
SiO2 |
IOTA Silicone Oil |
IOTA FINE SIL517 |
3 |
Fumed silica |
Purity(%) |
> 90 |
- |
바로가기 |
| 3 |
Fumed silica |
Moisture(%) |
4~8 |
- |
| 3 |
Fumed silica |
pH |
6.5-7.5 |
- |
| 3 |
Fumed silica |
Specific surface area(m2/g) |
200-220 |
- |
| 3 |
Fumed silica |
Iron Content(ppm) |
< 300 |
- |
| 1019 |
SiO2 |
IOTA Silicone Oil |
IOTA FINE SIL515 |
3 |
Fumed silica |
Purity(%) |
> 90 |
- |
바로가기 |
| 3 |
Fumed silica |
Moisture(%) |
4~8 |
- |
| 3 |
Fumed silica |
pH |
6.5-7.5 |
- |
| 3 |
Fumed silica |
Specific surface area(m2/g) |
200-220 |
- |
| 3 |
Fumed silica |
Iron Content(ppm) |
< 300 |
- |
| 1018 |
Hollow glass sphere |
Nanjing High Technology Nano Material |
K25 |
- |
- |
Crush Strength (psi) |
750 |
|
바로가기 |
| - |
- |
Minimum Fractional Survival (%) |
80 |
|
| - |
- |
Density(g/cm3) |
0.25 |
True density |
| - |
- |
Size (um) |
55 |
by volume |
| 1017 |
SiO2 |
IOTA Silicone Oil |
IOTA FINE SIL365 |
8 |
Fumed silica |
Purity(%) |
> 90 |
- |
바로가기 |
| 8 |
Fumed silica |
Moisture(%) |
4~8 |
- |
| 8 |
Fumed silica |
pH |
6.5-7.5 |
- |
| 8 |
Fumed silica |
Specific surface area(m2/g) |
180-200 |
- |
| 8 |
Fumed silica |
Iron Content(ppm) |
< 300 |
- |
| 1016 |
SiO2 |
IOTA Silicone Oil |
IOTA FINE SIL360 |
8 |
Fumed silica |
Purity(%) |
> 90 |
- |
바로가기 |
| 8 |
Fumed silica |
Moisture(%) |
4~8 |
- |
| 8 |
Fumed silica |
pH |
6.5-7.5 |
- |
| 8 |
Fumed silica |
Specific surface area(m2/g) |
180-200 |
- |
| 8 |
Fumed silica |
Iron Content(ppm) |
< 500 |
- |
| 1015 |
SiO2 |
IOTA Silicone Oil |
IOTA FINE SIL325 |
35 |
Fumed silica |
Purity(%) |
> 90 |
- |
바로가기 |
| 35 |
Fumed silica |
Moisture(%) |
4~8 |
- |
| 35 |
Fumed silica |
pH |
6.5-7.5 |
- |
| 35 |
Fumed silica |
Specific surface area(m2/g) |
160-180 |
- |
| 35 |
Fumed silica |
Iron Content(ppm) |
< 1000 |
- |
| 1014 |
SiO2 |
Hangzhou Wanjing New Material |
- |
0.025 |
- |
Purity(%) |
98.9 |
- |
Applied Mechanics and Materials Vols 71-78 (2011) pp 1233-1236 |
| 0.025 |
- |
Specific surface area(m2/g) |
40 |
- |
| 0.025 |
- |
Purity(%) |
99.6 |
- |
| 0.025 |
- |
Specific surface area(m2/g) |
230 |
- |
| 1013 |
MgO |
HangZhou Veking New Material |
- |
0.05 |
- |
XRD |
|
- |
Construction and Building Materials 164 (2018) 663–671 |
| 0.05 |
- |
Specific surface area(m2/g) |
25 |
- |
| 0.05 |
- |
Density(g/cm3) |
0.25 |
Bulk density |
| 1012 |
Al2O3 |
Haihang industry |
Aluminum oxide TPA-40 |
41.12 |
- |
Specific surface area(m2/g) |
0.11 |
- |
바로가기 |
| 41.12 |
- |
Electrical conductivity(μS/sm) |
2.58 |
- |
| 41.12 |
- |
pH |
7.61 |
- |
| 41.12 |
- |
Moisture(%) |
0.03 |
- |
| 41.12 |
- |
Density(g/cm3) |
3.87 |
True Density |
| 41.12 |
- |
Purity(%) |
99.9 |
- |
| 41.12 |
- |
SEM |
|
- |
| 1011 |
SiO2 |
Evonik Industries |
- |
0.014~0.018 |
Fumed silica |
Hydrodynamic diameter(nm) |
229.0±5.9 |
in water |
ACS Nano 2015, 9, 9, 9357–9372 |
| 0.014~0.018 |
Fumed silica |
Zeta potential(mV) |
-38±5.9 |
in water |
| 1010 |
TiO2 |
Department of Catalysis of ICPF |
- |
0.02 |
Anatase |
Zeta potential(mV) |
87 |
in water with pH2.4, Conc. 1.4 wt.% |
Nanoscale Research Letters 2011, 6:273 |
| 0.02 |
Anatase |
Zeta potential(mV) |
-44.5 |
in water with pH12.3, Conc. 0.8 wt.% |
| 0.02 |
Anatase |
Density(g/cm3) |
3.9 |
- |
| 1009 |
Hollow glass sphere |
Nanjing High Technology Nano Material |
K20 |
- |
- |
Crush Strength (psi) |
500 |
|
바로가기 |
| - |
- |
Minimum Fractional Survival (%) |
80 |
|
| - |
- |
Density(g/cm3) |
0.2 |
True density |
| - |
- |
Size (um) |
60 |
by volume |
| 1008 |
TiO2 |
Department of Catalysis of ICPF |
- |
0.04 |
Anatase |
Zeta potential(mV) |
81.2 |
in water with pH2.4, Conc. 2.4 wt.% |
Nanoscale Research Letters 2011, 6:273 |
| 0.04 |
Anatase |
Zeta potential(mV) |
-44.3 |
in water with pH12.4, Conc. 1.2 wt% |
| 0.04 |
Anatase |
Density(g/cm3) |
3.9 |
- |
| 1007 |
SiO2 |
Dalian Fuchang Chemical |
Fusil® 150 |
0.005~0.04 |
- |
Specific surface area(m2/g) |
150±15 |
- |
바로가기 |
| 0.005~0.04 |
- |
pH |
3.8~4.2 |
- |
| 0.005~0.04 |
- |
Purity(%) |
>99.9 |
- |
| 0.005~0.04 |
- |
Density(g/cm3) |
40~60 |
Bulk density |
| 1006 |
Al2O3 |
Beni-Suief University |
- |
0.012~0.018 |
- |
XRD |
|
- |
Construction and Building Materials 91 (2015) 232–242 |
| 0.012~0.018 |
- |
Purity(%) |
>99.9 |
- |
| 0.012~0.018 |
- |
Specific surface area(m2/g) |
165±12 |
- |
| 0.012~0.018 |
- |
Density(g/cm3) |
<0.1 |
- |
| 0.012~0.018 |
- |
TEM |
|
- |
| 1005 |
ZrO2 |
Beijing DK nano technology |
DK-ZrO2-001 |
0.02~0.03 |
Monoclinic |
TEM |
|
- |
바로가기 |
| 0.02~0.03 |
Monoclinic |
Purity(%) |
>99.9 |
- |
| 0.02~0.03 |
Monoclinic |
Specific surface area(m2/g) |
50 |
- |
| 0.02~0.03 |
Monoclinic |
Density(g/cm3) |
5.85 |
- |
| 0.02~0.03 |
Monoclinic |
Hardness |
7 |
Mohs |
| 1004 |
ZnO |
Beijing DK nano technology |
DK-ZnO-15 |
0.015 |
- |
TEM |
|
- |
바로가기 |
| 0.015 |
- |
Purity(%) |
99.9 |
- |
| 0.015 |
- |
Density(g/cm3) |
5.606 |
- |
| 0.015 |
- |
Drying loss(%) |
<0.5 |
- |
| 0.015 |
- |
Ignition loss(%) |
<1 |
- |
| 1003 |
TiO2 |
Beijing DK nano technology |
T5 |
0.005 |
Anatase |
Purity(%) |
>99.9 |
- |
바로가기 |
| 0.005 |
Anatase |
Specific surface area(m2/g) |
<220 |
- |
| 0.005 |
Anatase |
pH |
6~8 |
- |
| 0.005 |
Anatase |
Density(g/cm3) |
3.8 |
- |
| 0.005 |
Anatase |
Refractive index |
2.55 |
- |
| 0.005 |
Anatase |
TEM |
|
- |
