High Density Si3N4 Bulletproof Ceramic Vest Plate
1. SIC ceramic plate for bulletproof vest
2. Good thermal shock resistance
3. Low density, Strict QC
4. Customized Size
5. Own factory,OEM
- Description
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High Density Si3N4 Bulletproof Ceramic Vest Plate
Product Description
Silicon Nitride has good high temperature strength, creep resistance and oxidation resistance, Silicon Nitride offers the low
thermal expansion coefficient gives good thermal shock resistance compared with most ceramic materials.Silicon nitride is sintered
at high temperature( around 2000℃) and highly densified . Compared to silicon carbide, silicon nitride has better mechanical
strength and thermal shocking resistance. It also posses excellent electrical insulating property, wear resistance and corrosion
resistance
The prime features of Si3N4 ceramic
1.Low density: 3.2 g/cm3 with lightweight than most other technical ceramics
2. Superior hardness, it’s one of most hardest technical ceramic than others
3. Great wear resistance due to its exceptional hardness and self-lubricity
4. Low coefficient of thermal expansion and high thermal conductivity (20 W/m.k)
5. Great thermal shock resistance, it’s up to 1000ºC under the special atmosphere
6. High mechanical strength and well resistance to impact than other advanced ceramics
7. Heat & high-temperature resistance, The max. service temperature can be up to 1300ºC
8. Chemical and corrosion resistance, resistant to almost all inorganic acids and many organic acids
9. At the same time, Silicon nitride is a high-performance electrical insulation material
The typical application of Si3N4 ceramics
It’s widely used for producing bearings, shaft, gas turbine blades, mechanical seal rings, and permanent molds, steam nozzle, the heated surfaces of engine components
Datasheet of Technical ceramics
Property | Unit | Material | ||||
Si3N4 | 99.5% Al2O3 | 99% Al2O3 | 96% Al2O3 | ZrO2 | ||
Density | g/cm3 | ≥3.20 | ≥3.90 | ≥3.85 | ≥3.65 | ≥6.0 |
Water absorption | % | – | 0 | 0 | 0 | 0 |
Hardness | HV | – | 1700 | 1700 | 1500 | 1300 |
Flexural strength | Mpa | ≥600 | ≥379 | ≥338 | ≥320 | ≥1200 |
Compressive strength | Mpa | ≥2500 | ≥2240 | ≥2240 | ≥2000 | ≥1990 |
Fracture toughness | Mpa m1/2 | 6 | 4-5 | 4-5 | 3-4 | 6.5-8 |
Max. service temperature | ºC | 1200 | 1675 | 1600 | 1450 | 1000 |
Coefficient of thermal expansion (CTE) | 1×10 -6 /ºC | 3.2 | 6.5~8.0 | 6.2~8.0 | 5.0~8.0 | 8.0~9.5 |
Thermal shock | T(ºC) | ≥600 | ≥250 | ≥200 | ≥220 | ≥300 |
Thermal conductivity(25ºC) | W/m.k | 20 | 30 | 29 | 24 | 3 |
Volume resistivity | ohm.cm | |||||
25ºC | – | >1 x 10 14 | >1 x 10 14 | >1 x 10 14 | >1 x 10 11 | |
300ºC | – | 1 x 10 12 | 8 x 10 11 | 10 12 -10 13 | 1 x 10 10 | |
500ºC | – | 5 x 10 10 | 2 x 10 9 | 1 x 10 9 | 1 x 10 6 | |
Insulation strength | KV/mm | 19 | 18 | 18 | 17 | |
Dielectric constant(1Mhz) | (E) | 6 | 9.7 | 9.5 | 9.5 | 29 |
• Low density
• High strength
• High strength
• Low thermal expansion
• High thermal conductivity
• High hardness
• High elastic modulus
• Excellent thermal shock resistance
• Superior chemical inertness
Our capability and strength
We have in-housing comprehensive manufacturing types of equipment, including forming, sintering,
CNC machining, precision grinding, laser cutting, and so on, it helps us to control the quality very well.
Also, it greatly benefits cost control.