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Alumina Ceramic: Exceptional High-Temperature, High-Strength Insulating Material

Introduction
Alumina ceramic (Al₂O₃) is an advanced industrial ceramic material primarily composed of α-alumina as the main crystalline phase. Due to its unique physical and chemical properties, it holds an irreplaceable position in modern industry and high-tech applications. Produced from high-purity raw materials and advanced sintering techniques, alumina ceramic exhibits outstanding high-temperature stability, excellent mechanical strength, and superior electrical insulation properties, making it widely applicable in various demanding environments.

Applications
Alumina ceramic has an extensive range of applications, including:

Electronics and Electrical Industry: Integrated circuit substrates, electronic packaging shells, high-voltage insulating insulators, spark plugs, vacuum circuit breaker components.
Mechanical Industry: Wear-resistant ceramic parts (e.g., sealing rings, bearings, ball valves), cutting tools, textile ceramic components.
High-Temperature Industry: High-temperature furnace tubes, thermocouple protection tubes, crucibles, refractory bricks, glass melting furnace linings.
Medical Field: Artificial joints, dental implants, surgical instrument parts.
Other Fields: Laser tubes, wear-resistant pipeline linings, armor protection materials.

Advantages

High Hardness and Strength: Mohs hardness of up to 9, second only to diamond, with excellent wear resistance and high mechanical strength.
Exceptional High-Temperature Performance: Can operate long-term at temperatures up to 1600°C or higher without deformation, offering excellent thermal stability.
Superior Electrical Insulation: High resistivity and low dielectric loss make it an ideal insulating material, especially for high-frequency and high-voltage environments.
Good Corrosion Resistance: Highly resistant to most acids, alkalis, and solvents, ensuring excellent chemical stability.
Cost-Effectiveness: Among advanced ceramics, alumina ceramic is cost-effective due to widely available raw materials and mature manufacturing processes.

Specification Parameters Table

Property	Unit	Typical Value (96% Al₂O₃)	Typical Value (99.5% Al₂O₃)
Alumina Content	%	96	99.5
Bulk Density	g/cm³	3.6 - 3.7	3.8 - 3.9
Flexural Strength	MPa	300 - 350	350 - 400
Vickers Hardness	HV0.5	1400 - 1600	1600 - 1800
Max Operating Temp	°C (in air)	1500	1650
Thermal Expansion	×10⁻⁶/°C (RT-800°C)	7.0 - 7.5	7.5 - 8.0
Thermal Conductivity	W/(m·K) (20°C)	20 - 25	28 - 33
Volume Resistivity	Ω·cm (20°C)	>10¹⁴	>10¹⁴
Dielectric Strength	kV/mm	10 - 15	15 - 20

Manufacturing Process
The production of alumina ceramic primarily follows these steps:

Powder Preparation: High-purity alumina powder is selected, and sintering aids are added according to the formula.
Forming: The powder is shaped into green bodies using methods such as dry pressing, isostatic pressing, slip casting, tape casting, or injection molding.
Sintering: Densification is achieved in high-temperature sintering furnaces at temperatures ranging from 1600°C to 1800°C to produce the final high-performance ceramic product.
Precision Machining: Depending on accuracy requirements, sintered ceramic components undergo grinding, polishing, laser cutting, or other precision machining processes.

Usage Instructions

Installation and Operation: Avoid direct impact with metal hammers; use nylon or rubber hammers for installation. Prevent localized stress concentration.
Temperature Control: Although resistant to high temperatures, avoid rapid temperature changes to prevent thermal stress-induced cracking.
Cleaning: Clean using ultrasonic methods or wipe with neutral detergents. Avoid strong corrosive chemicals such as hydrofluoric acid.

After-Sales Service
We provide comprehensive technical support and after-sales services, including product technical consultations, usage guidance, and return or replacement services for non-human-caused quality issues (specific terms subject to the purchase agreement). We are committed to promptly addressing and resolving customer feedback.

FAQ

Q: Which is more wear-resistant, alumina ceramic or zirconia ceramic?
A: Alumina ceramic has higher hardness and better wear resistance, while zirconia ceramic offers greater toughness and impact resistance. The choice depends on the specific application.
Q: What level of precision can be achieved with alumina ceramic machining?
A: Through precision grinding and polishing, dimensional accuracy can be controlled within ±0.001mm, and surface roughness can reach Ra0.01μm.
Q: Can it be directly welded to metal?
A: No, direct welding is not possible. Reliable bonding with metal is typically achieved through brazing, glass sealing, or using epoxy adhesives.
Q: Is higher alumina content always better?
A: Not necessarily. Higher purity (e.g., 99.5%) ceramics offer better electrical and high-temperature performance but are more expensive and slightly less tough. 96% alumina ceramic strikes a balance between mechanical strength and cost, making it a common industrial-grade choice.

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Categories	Alumina Ceramic
Place of Origin:	Made In China，Zhejiang，Jinhua
Brand Name:	Dayoo
MOQ:	Negotiate
Price:	Negotiate
Delivery Time:	Negotiable
Payment Terms:	Negotiable
Melting Point:	2072°C
Corrosion Resistance:	Excellent
Volume Resistivity:	10^14 Ω·cm
Maximum Use Temperature:	1700c
Electrical Resistivity:	10^14 ohm-cm
Tensile Strength:	200 MPa
Method:	lsostatic presure
Dielectric Strength:	15 kV/mm
Electrical Insulation:	Excellent
Low Dielectric Loss:	0.0002
Thermal Conductivity:	35 W/mK
Bulk Density:	>3.63
Alumina Content:	92% & 95%
Color:	White
Wear Resistance:	Excellent
Packaging Details:	Carton