Silicon Nitride (Si₃N₄) vs Aluminium Nitride (AlN) Ceramic Blocks: Performance, Specification and Application Analysis

Silicon Nitride (Si₃N₄) and Aluminium Nitride (AlN) ceramic blocks are both advanced structural ceramics that excel in extreme environments such as high temperatures, corrosion, and high loads due to their excellent physical and chemical properties. Silicon nitride is known for its high strength, high hardness and wear-resistant properties, while aluminum nitride stands out for its ultra-high thermal conductivity and insulating properties, both of which are used in complementary applications in aerospace, electronics, energy and other fields.

Comparison of the characteristics of silicon nitride and aluminium nitride ceramic blocks

Mechanical Properties

Silicon nitride ceramic blocks have a high hardness of HV1200-1600 (Vickers hardness), a bending strength of 800-1200 MPa, a compressive strength of over 3000 MPa, and a fracture toughness of 5-6 MPa・m¹/². The β-Si₃N₄ columnar grain boundaries in its microstructure give it excellent resistance to crack extension, making it suitable for high-impact loads, such as cutting tools and bearing balls.

Aluminum nitride ceramic blocks have a lower hardness (HV300-500) and a bending strength of about 300-400 MPa, making them easier to machine and shape. However, the modulus of elasticity reaches 310 GPa, which is close to that of metallic aluminum and is suitable for structural parts requiring precise dimensions.

Thermal properties

Silicon nitride ceramic blocks are highly resistant to high temperatures, with an oxidation onset temperature of 1400°C and a maximum operating temperature of 1600°C (in an inert atmosphere). It has a low coefficient of thermal expansion (3.2×10-⁶/°C), which makes it a good match for metals and suitable for thermal cycling conditions. However, the thermal conductivity is low (25-35 W/m・K), which limits its application in heat dissipation scenarios.

Aluminum nitride ceramic blocks have a high thermal conductivity of 170-230 W/m・K (close to metallic aluminum), which is one of the best thermal conductivity materials among ceramics. The temperature resistance is a little weak, with a long-term use temperature of about 900-1200°C. However, it has excellent thermal shock resistance (thermal shock index R’ reaches 1500 W/m) and can withstand sudden cold and heat shocks.

Chemical and electrical properties

Silicon nitride ceramic block is chemically inert, does not react with strong acids and alkalis except hydrofluoric acid, and is resistant to erosion by metal melts such as aluminum and iron. Dielectric constant 9-10, dielectric loss 10-³ (1 MHz), suitable for high-frequency insulation scenarios.

Aluminum nitride ceramic blocks are slightly less resistant to corrosion than silicon nitride but have excellent stability against molten metals such as aluminum and zinc. With a dielectric constant of 8.5, a dielectric loss of <10-⁴ (1 MHz) and a high thermal conductivity, they are ideal ‘insulating – thermal conductive’ bifunctional materials.

Comparison of Silicon Nitride and Aluminium Nitride Ceramic Blocks Specification Sheet

Indicator	Silicon Nitride (Si₃N₄) Ceramic Block	Aluminum Nitride (AlN) Ceramic Block
Density	3.2–3.4 g/cm³	3.2–3.3 g/cm³
Hardness (HV)	1200–1600	300–500
Flexural Strength (MPa)	800–1200	300–400
Thermal Conductivity (W/m·K)	25–35	170–230
Maximum Service Temperature (℃)	1600 (inert atmosphere)	1200 (air atmosphere)
Coefficient of Thermal Expansion (10⁻⁶/℃)	3.2	4.5
Dielectric Constant (1 MHz)	9–10	8.5
Typical Dimensions (mm)	Diameter ≤ 500, Thickness ≤ 100	Side length ≤ 600, Thickness ≤ 50
Machining Difficulty	Requires diamond grinding wheel (high cost)	Can be machined with silicon carbide wheel (medium cost)

Comparison of Silicon Nitride and Aluminium Nitride Ceramic Blocks Application Scenarios

Aerospace

Silicon Nitride Ceramic Blocks: Used in engine combustion chamber nozzles and turbine blades to replace traditional nickel-based alloys, reduce weight and improve efficiency by utilizing its high-temperature resistance and thermal shock resistance.

Aluminum nitride ceramic blocks: used to make heat dissipation frames for satellite electronic equipment, quickly exporting heat from the chip and meeting the insulation requirements in the space environment.

Electronics Industry

Silicon nitride ceramic blocks: dielectric filters and packaging housings for high-frequency communication equipment, taking advantage of their low dielectric loss and high stability.

Aluminum nitride ceramic blocks occupy more than 90% of the global market for high-power LED heat dissipation substrates, with a thermal conductivity 5 times higher than that of alumina, significantly extending device life.

Energy and Environmental Protection

Silicon nitride ceramic blocks: support structure for fuel cell stacks, resistant to high temperature of 800℃ and strong corrosive gases (e.g., CO₂, H₂O).

Aluminum nitride ceramic blocks: insulating sleeves for nuclear reactor control rods, ensuring safe heat dissipation through its radiation resistance and thermal conductivity.

Precision Manufacturing

Silicon nitride ceramic blocks: Spindle bearings for ultra-precision grinding machines, with an accuracy of 0.1μm class and a life span of 5-8 times that of steel bearings.

Aluminum nitride ceramic blocks: guideway slides for semiconductor wafer cutters, low coefficient of friction (0.002) combined with high rigidity, suitable for nanoscale processing.

Summary

Silicon nitride and aluminum nitride ceramic blocks occupy an irreplaceable position in the fields of ‘strong structure’ and ‘high functionality’ respectively: choose silicon nitride: priority is given to high-strength, wear-resistant, ultra-high-temperature scenarios (>1000°C), such as aero-engines and wear-resistant mechanical components. Choose aluminum nitride: focus on high thermal conductivity, electrical insulation, medium to high-temperature scenarios (<900°C), such as electronic heat dissipation, and precision instrument structures.

Supplier

RBOSCHCO is a trusted global chemical material supplier & manufacturer with over 12 years experience in providing super high-quality chemicals and Nanomaterials. The company export to many countries, such as USA, Canada, Europe, UAE, South Africa,Tanzania,Kenya,Egypt,Nigeria,Cameroon,Uganda,Turkey,Mexico,Azerbaijan,Belgium,Cyprus,Czech Republic, Brazil, Chile, Argentina, Dubai, Japan, Korea, Vietnam, Thailand, Malaysia, Indonesia, Australia,Germany, France, Italy, Portugal etc. As a leading nanotechnology development manufacturer, RBOSCHCO dominates the market. Our professional work team provides perfect solutions to help improve the efficiency of various industries, create value, and easily cope with various challenges. If you are looking for Silicon nitride and aluminum nitride ceramic blocks, please send an email to: sales1@rboschco.com

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