-
Alumina Ceramic Components
-
Ceramic Housing
-
Metallized Alumina Ceramics
-
Custom Ceramic Parts
-
Alumina Ceramic Insulator
-
Alumina Ceramic Rings
-
Pressure Sensor Ceramic
-
Advanced Technical Ceramics
-
Advanced Engineering Ceramics
-
Fuse Ceramic
-
Ceramic Connector Blocks
-
Electronic Ceramic Components
-
Magnetron Ceramic
-
Zirconia Ceramic Parts
-
Alumina Ceramic Rods
-
Mr.FarnReply very fast and easy to talk!
-
Mr.JacksonGood service and nice to talk.
Capacitive Pressure Sensor Ceramic 96% Aluminum Oxide Sensor Substrate
Contact me for free samples and coupons.
Whatsapp:0086 18588475571
Wechat: 0086 18588475571
Skype: sales10@aixton.com
If you have any concern, we provide 24-hour online help.
xProduct Name | Pressure Sensor Ceramic | Material | 96% Aluminum Oxide |
---|---|---|---|
Density | 4.1g/cm3-5.9g/cm3 | Thickness | 0.25mm-6mm |
Working Temperature | -40°C - 60°C | Application | Alumina Ceramic Substrate For Pressure Sensor |
Working Voltage | 2-20V | Repeatability | <±6.6%(50% Of The Load ) |
Sensitivity | 1.5—4mv/V, Typical Value 2.5±1.0mv/V | ||
High Light | Capacitive Pressure Sensor Ceramic,96% Pressure Sensor Ceramic,96% Aluminum Oxide Sensor Substrate |
Film Alumina Capacitive Pressure Sensor Ceramic / Ceramic Sensor Substrate
1. Description:
For all areas of a steelworks, such as coke plant, sinter plant, blast furnace, converter, casting plant and rolling mill, ifm provides the necessary automation technology. ifm sensors are distinguished by high temperature resistance, sturdy housing and reliable protection against shock and vibration. Sensors monitor the flow and the water temperature in the supply lines of cooling systems to protect furnaces from overheating. In hydraulic power packs, pressure, level and temperature sensors ensure reliable supply with hydraulic oil. Infrared temperature sensors or distance sensors detect the position of glowing steel from a safe distance. Systems for vibration monitoring detect machine and plant damage in time and thereby guarantee high machine uptime.
2. Feature Advantages:
1) High elasticity modulus
2) High compressive strength.
3) Anti corrosion
4) Abrasion resistance
5) Impact resistance
6) High precision
7) High stability
8) Good advanced ceramic materials
9) High welding sealing performance
10) High hardness and high density
11) Low thermal conductivity
12) Chemical inertness
13) Good wear resistance
14) High Fracture toughness
15) Good insulation performance
16) High temperature resistance
17) A variety of specifications is available
18) Satisfy various technical requests
3. Material Features / Properties:
Color | White or Ivory | White or Ivory | White or Ivory | |
Density | g/cm 3 | 3.82 | 3.9 | 3.92 |
Hardness | HRA | 83 | 85 | 85 |
Flexural Strength | Mpa (psi*10 3 ) | 375 | 386 | 381 |
4. Technical Parameters:
Technical Parameters of Ceramics | ||||||||
Items | Test Conditions | Unit or Symbol | 99% AL2O3 | 95% AL2O3 | 90% AL2O3 | Zirconia | Steatite | Silicon Carbide |
Volume Density | -- | g/cm3 | ≥3.70 | ≥3.62 | ≥3.40 | ≥5.90 | ≥2.60 | ≥3.08 |
Tightness | -- | Pa·m³/s | ≤1.0×10-11 | ≤1.0×10-11 | ≤1.0×10-11 | - | - | - |
Liquid Permeability | -- | -- | Pass | Pass | Pass | Pass | - | |
Flexural Strength | - | MPa | ≥300 | ≥280 | ≥230 | ≥1100 | ≥120 | ≥400 |
Elastic Modulus | - | GPa | - | ≥280 | ≥250 | ≥220 | - | 400 |
Poisson Ratio | - | - | - | 0.20~0.25 | 0.20~0.25 | - | - | - |
Thermal Shock Resistance | 800℃( Room Temperature) Cycle: 10 times | Pass | Pass | Pass | - | - | - | |
Coefficient of Linear Expansion | 20℃~100℃ | ×10-6 K-1 | - | - | - | ≤8 | - | |
20℃~500℃ | ×10-6 K-1 | 6.5~7.5 | 6.5~7.5 | 6.5~7.5 | 6.5~11.2 | - | - | |
20℃~800℃ | ×10-6 K-1 | 6.5~8.0 | 6.5~8.0 | 6.3~7.3 | - | 4 | ||
20℃~1200℃ | ×10-6 K-1 | - | 7.0~8.5 | - | - | - | - | |
Coefficient of Thermal Conductivity | 20℃ | W/(m·k) | - | - | - | - | - | 90~110 |
1000℃ | ||||||||
Dielectric Constant | 1MHz 20℃ | - | 9.0~10.5 | 9.0~10 | 9.0~10 | - | ≤7.5 | - |
1MHz 50℃ | - | - | 9.0~10 | - | - | - | - | |
10GHz 20℃ | - | 9.0~10.5 | 9.0~10 | 9.0~10 | - | - | - | |
Volume Resistivity | 100℃ | Ω·cm | ≥1.0×1013 | ≥1.0×1013 | ≥1.0×1013 | - | ≥1.0×1012 | - |
300℃ | ≥1.0×1013 | ≥1.0×1010 | ≥1.0×1013 | - | - | - | ||
500℃ | ≥1.0×109 | ≥1.0×108 | -- | - | - | - | ||
Disruptive Strength | D.C | kV/mm | ≥17 | ≥15 | ≥15 | - | ≥20 | - |
Chemical Durability | 1:9HCl | mg/c㎡ | ≤0.7 | ≤7.0 | - | - | - | - |
10%NaOH | mg/c㎡ | ≤0.1 | ≤0.2 | - | -- | - | - | |
Grain Size | - | μm | - | 3~12 | - | - | - | - |
5. Process Flows:
Formulating --- Granulating --- Forming --- Sintering --- Grinding --- Inspecting --- Packing
6. Application Fields:
Ceramic Pressure Sensor is widely used in process control, environmental control, hydraulic and pneumatic equipment, servo valves and transmission, chemical and chemical industry and medical instruments and many other fields.
7. Production Facilities: Prilling Tower , Forming Machine , High Temperature Sintering Kiln
8. Detection Devices:
Electric Performance Tester , Film Thickness Analyzer , Granulometer , Helium Mass Spectrometer Leak Detector , Universal Pull Force Meter
9. Notes:Above information only for reference and please contact with us for more details freely when you have any inquiry!