Overview of Good Surface Energy-Saving Aluminum Oxide Al2O3 Alumina Ceramic Sintering Tray

Good Surface Energy-Saving Aluminum Oxide Al2O3 Alumina Ceramic Sintering Tray are one of the most widely used and versatile technical ceramics, prized for their excellent combination of properties. Composed primarily of aluminum oxide (Al₂O₃), they offer outstanding hardness, wear resistance, and electrical insulation, even at high temperatures. From low-purity grades for general industrial use to high-purity compositions for demanding applications, alumina ceramics provide a cost-effective and reliable solution across a vast range of industries.

Features of Good Surface Energy-Saving Aluminum Oxide Al2O3 Alumina Ceramic Sintering Tray

• High Hardness & Wear Resistance: Excellent resistance to abrasive wear, making it ideal for liners, nozzles, and guides.

• Superior Electrical Insulation: Maintains high electrical resistivity and dielectric strength, even at elevated temperatures.

• Excellent Thermal Stability: Withstands high operating temperatures and exhibits good thermal conductivity.

• High Mechanical Strength: Possesses good compressive strength and stiffness.

• Chemical Inertness: Resists corrosion from a wide range of acids, alkalis, and other harsh chemicals.

• Cost-Effectiveness: A highly versatile and economically efficient ceramic material for numerous applications.

Specification of Good Surface Energy-Saving Aluminum Oxide Al2O3 Alumina Ceramic Sintering Tray

This alumina ceramic sintering tray handles demanding high-heat processes. Its key feature is the optimized surface energy. This trait directly improves energy efficiency during sintering. The tray surface interacts better with materials placed on it. This leads to more uniform heat distribution. Less energy gets wasted. You see lower operational costs over time.

The tray is made from high-purity aluminum oxide (Al2O3). This material choice delivers essential properties. It handles extreme temperatures up to 1700°C. The tray won’t warp or crack under repeated thermal cycling. Its structure is very dense. This prevents contamination of your sintered products. It also ensures long service life. The tray resists wear and chemical attack well. This reduces replacement frequency.

The surface is exceptionally smooth and flat. This prevents sticking or marking delicate parts. Loading and unloading become easier. Consistent flatness guarantees uniform results batch after batch. Its low thermal expansion coefficient is crucial. The tray maintains precise dimensions even under intense heat. This dimensional stability is vital for tight process control.

These trays stack securely and safely. This maximizes kiln space utilization. You fit more product per firing cycle. Their inherent strength supports significant weight loads. They are dense but relatively lightweight. Handling them is straightforward. Their robustness minimizes breakage risk.

Choosing this sintering tray means investing in process reliability. It enhances product quality consistency. The energy-saving surface reduces your kiln running costs. The long lifespan offers excellent value. It withstands the harsh conditions of industrial sintering reliably.

Applications of Good Surface Energy-Saving Aluminum Oxide Al2O3 Alumina Ceramic Sintering Tray

This alumina ceramic sintering tray handles high heat well. It keeps its shape at temperatures over 1600°C. This stability is crucial for consistent results. The tray’s surface saves energy. It reflects heat efficiently back onto the parts. Less furnace energy is needed. This cuts costs significantly. Production runs become more economical.

The surface finish is very smooth. Parts don’t stick after firing. This prevents damage during removal. Workers save time cleaning trays. Less powder sticks too. Contamination risks drop. Product quality improves. Yield rates often increase.

These trays are tough. They resist thermal shock. Sudden temperature changes won’t crack them. They last much longer than metal trays. Replacement costs go down. Production downtime decreases. Reliability is a major benefit.

They are chemically inert. Harsh furnace atmospheres cause no reaction. The trays won’t corrode. They don’t outgas impurities. Sensitive materials stay pure. This is vital for electronics. Semiconductor components require clean processing. Battery materials like cathodes need uncontaminated sintering. Medical device ceramics demand high purity. The trays deliver this.

Many industries use them. Electronics makers sinter MLCC capacitors and substrates. Battery producers fire electrode materials. Technical ceramics manufacturers harden various components. Research labs rely on them for experiments. They fit standard industrial furnaces. Handling is straightforward.

Company Profile

Tanki New Materials Co.Ltd. focus on the research and development, production and sales of ceramic products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2015, the company has been committed to providing customers with the best products and services, and has become a leader in the industry through continuous technological innovation and strict quality management.

Our products includes but not limited to Aerogel, Aluminum Nitride, Aluminum Oxide, Boron Carbide, Boron Nitride, Ceramic Crucible, Ceramic Fiber, Quartz Product, Refractory Material, Silicon Carbide, Silicon Nitride, ect. please feel free to contact us.

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of Good Surface Energy-Saving Aluminum Oxide Al2O3 Alumina Ceramic Sintering Tray

What makes these trays different?
These trays save energy. Their special surface treatment reduces heat loss during firing. Less energy gets wasted. Furnaces run more efficiently. You see lower power bills. Production costs drop.

How hot can they go?
They handle extreme heat. Maximum temperature exceeds 1600°C. This suits most high-temperature sintering processes. The material stays stable. It won’t warp or degrade easily. Consistent results are key.

Will they last?
Yes, they are very durable. Alumina ceramic is inherently tough. It resists thermal shock well. Sudden temperature changes cause less damage. Trays withstand many firing cycles. You get a long service life.

How do I clean them?
Cleaning is straightforward. Debris usually brushes off easily. For stubborn residue, use mild solvents or sandblasting gently. Avoid harsh chemicals. They might damage the surface treatment. Proper cleaning keeps performance high.

Why the higher cost?
The initial price is higher than basic trays. The energy-saving surface treatment adds value. Lower energy use pays back the cost over time. Durability means fewer replacements. Long-term savings are significant. It’s a smart investment.