What Are Aluminum Nitride Precision Parts?
Aluminum nitride precision parts are machined AlN ceramic components used when heat transfer, electrical insulation and dimensional stability must work together in a compact assembly. They are commonly designed as heat spreaders, insulating plates, spacers, carriers, rings, nozzles, supports and locating components for power modules, LED heads, RF devices and industrial thermal equipment.
Compared with alumina, aluminum nitride provides much higher thermal conductivity while still maintaining strong electrical insulation. This makes it suitable for assemblies where local heat must be transferred away from chips, power devices or heating zones without creating an electrical conduction path.
Why Engineers Choose AlN Precision Ceramic Parts
- 1. High thermal conductivity with electrical insulation
Aluminum nitride helps transfer heat away from power devices, LED arrays and RF components while keeping the assembly electrically insulated. - 2. Better thermal design than alumina in compact spaces
AlN is often selected when alumina cannot remove heat fast enough, especially in high-power or high-density electronic assemblies. - 3. Stable expansion behavior near silicon-based devices
The thermal expansion behavior of AlN is closer to silicon-based materials than many oxide ceramics, helping reduce thermal stress in selected electronic packages. - 4. Drawing-based geometry integration
Holes, counterbores, slots, steps, grooves and reference faces can be reviewed in one ceramic part to reduce assembly interfaces. - 5. Suitable for precision insulating and thermal support roles
AlN precision parts can work as insulating spacers, thermal bridges, carrier plates, support blocks and locating components when the mechanical design is properly controlled.
Aluminum Nitride Precision Ceramic Parts Properties
| Property Content | Property | Unit | ALN-170 | ALN-200 | ALN-230 |
| Basic Properties | Color | gray | light yellow | light yellow | |
| Density | g/cm³ | 3.2-3.3 | 3.2-3.3 | 3.2-3.3 | |
| Surface Roughness | μm | 0.2-0.75 | 0.2-0.75 | 0.2-0.8 | |
| Camber | length ‰ | ≤3‰ | ≤3‰ | ≤3‰ | |
| Hardness | HV | 1100 | 1100 | 1100 | |
| Thermal Properties | Max Operating Temperature | °C | 1100 | 1100 | 1100 |
| Thermal Conductivity | W/m·K | 170-190 | 190-220 | 220-230 | |
| Coefficient of Thermal Expansion | 10⁻⁶/K(20-400°c) | 4-5 | 4-5 | 4-5 | |
| Coefficient of Thermal Expansion | 10⁻⁶/K(400-800°c) | 5-6 | 5-6 | 5-6 | |
| Mechanical Properties | Flexural Strength | MPa | 300-400 | 350-450 | 400-500 |
| Tensile Strength | MPa | 200-300 | 250-350 | 280-380 | |
| Compressive Strength | MPa | 2000-3000 | 2200-3200 | 2500-3500 | |
| Electrical properties | Dielectric Constant | at 1MHz | 8-9 | 8-9 | 8-9 |
| Dielectric strength | KV/mm | ≥15 | ≥15 | ≥15 | |
| Volume resistivity | 20℃ Ω.cm | ≥1014 | ≥1014 | ≥1014 |
Processing Size Range of AlN Parts
| Processing size range of AIN Parts | |||
| Item No. | Outer Diameter(mm) | Inner Diameter(mm) | Height(mm) |
| AT-AIN-JG001 | 2-500 | 0.5-400 | 0.1-450 |
Aluminum Nitride Precision Components Packaging
- Aluminum nitride precision parts are separated with soft dividers or cavity trays to prevent edge chipping and face scratching during transport.
