Overview of Mullite Crucible

Mullite crucibles are made from a high-performance ceramic material composed primarily of alumina (Al₂O₃) and silica (SiO₂). Known for their excellent thermal stability and mechanical strength, mullite crucibles are widely used in high-temperature applications such as melting metals, glass, and ceramics. They offer superior resistance to thermal shock and chemical attack, making them indispensable in both laboratory and industrial settings.

Features of Mullite Crucible

Thermal Shock Resistance: Exceptional ability to withstand rapid temperature changes without cracking.
High Mechanical Strength: Strong and durable, even at elevated temperatures.
Chemical Stability: Resistant to most chemicals, ensuring minimal contamination during processes.
Temperature Range: Can operate effectively at temperatures up to 1650°C.
Low Thermal Expansion: Minimal expansion or contraction with temperature changes, ensuring dimensional stability.
Non-Reactive: Does not react with the materials being processed, preserving sample purity.
Versatility: Suitable for a wide range of applications including metallurgy, glass manufacturing, and laboratory experiments.

(Refractory alumina ceramic crucible mullite cordierite rectangle lithium battery zirconia ceramic coated saggar for sintering)

Specifications of Refractory alumina ceramic crucible mullite cordierite rectangle lithium battery zirconia ceramic coated saggar for sintering

This refractory alumina ceramic crucible is made for high-temperature sintering procedures in lithium battery manufacturing. The primary material is high-purity alumina, offering superb thermal stability and chemical resistance. It manages temperatures approximately 1800 ° C without deformation or fracturing. Mullite and cordierite are contributed to boost thermal shock resistance and decrease thermal development. This ensures the crucible remains intact throughout quick home heating or cooling cycles. The rectangle-shaped shape optimizes room efficiency in sintering heating systems, suitable common lithium battery cell formats.

The inner surface area is covered with zirconia ceramic, offering added defense against chemical reactions and reducing product bond. This coating expands the crucible’s lifespan and preserves pureness throughout high-temperature applications. The saggar design prevents contamination from heating system environments, ensuring constant item top quality.

Dimensions are adjustable to match certain battery cell dimensions, with usual alternatives consisting of 150x100x50mm and 200x150x60mm. Wall density ranges from 5mm to 15mm, balancing longevity and warm transfer performance. The thick framework decreases porosity, avoiding gas seepage and product leakage.

This crucible sustains repeated usage in oxidizing or inert atmospheres, suitable for sintering cathode and anode products. It withstands deterioration from molten salts, metals, and alkaline solutions. Mechanical strength stays high even after long term direct exposure to extreme conditions.

Production adheres to strict high quality criteria, consisting of ISO 9001 and ASTM accreditations. Each system goes through precision molding, high-temperature shooting, and surface area therapy. Testing includes thermal cycling, stress resistance, and dimensional precision checks. Personalized branding or labeling is offered for industrial clients.

The product is compatible with computerized sintering lines, lowering downtime throughout packing and dumping. It offers sectors like energy storage, electronic devices, and progressed porcelains. Product packaging uses shock-absorbent materials to avoid damages throughout shipping. Technical assistance is attended to ideal use standards and troubleshooting.

(Refractory alumina ceramic crucible mullite cordierite rectangle lithium battery zirconia ceramic coated saggar for sintering)

Applications of Refractory alumina ceramic crucible mullite cordierite rectangle lithium battery zirconia ceramic coated saggar for sintering

Refractory alumina ceramic crucibles serve high-temperature applications. They take care of severe heat in industrial processes. These crucibles work well for sintering lithium battery products. Their high melting point avoids contortion under stress and anxiety. Alumina withstands chemical reactions with battery elements. This keeps the sintering process stable. Mullite ceramic crucibles offer outstanding thermal shock resistance. They hold up against quick temperature changes without breaking. This makes them suitable for duplicated home heating cycles. Mullite’s reduced thermal conductivity lowers power loss. It enhances performance in battery material production. Cordierite ceramic crucibles are light-weight and resilient. They excel in environments requiring low thermal development. Cordierite’s structure reduces heat-related tension throughout sintering. It ensures uniform home heating for consistent battery quality. These crucibles are affordable for large procedures. Rectangle-shaped layouts maximize area in sintering heaters. They enable tighter packaging of battery elements. This enhances manufacturing ability without endangering results. Lithium battery sintering demands precision. Ceramic saggars safeguard materials from contamination. Zirconia-coated ceramic saggars include additional security. The finishing stands up to wear and extends service life. Zirconia’s sturdiness shields against physical damages during handling. It additionally protects against chemical communications at heats. These saggars keep pureness in delicate battery products. Alumina-mullite composite crucibles incorporate toughness and thermal security. They take care of aggressive sintering conditions. Their hybrid framework resists deterioration from fluxes or ingredients. This adaptability suits diverse lithium battery solutions. Ceramic crucibles lower downtime in manufacturing. Their sturdiness cuts replacement regularity. This decreases long-lasting costs for battery manufacturers. Thermal effectiveness in these porcelains makes sure even warmth circulation. It avoids hotspots that can damage battery electrodes. Constant sintering boosts battery performance and lifespan. Industries like electronics and aerospace rely upon these ceramics. They meet stringent standards for material honesty. Customizable sizes and shapes fit details heating system setups. This versatility supports developing battery innovations. Zirconia-alumina split saggars use multi-functional benefits. They merge high-temperature resistance with surface area solidity. This twin defense is essential for innovative battery manufacturing. Ceramic-coated saggars streamline maintenance. Their non-stick surfaces alleviate residue elimination after sintering. This quickens cleaning between sets.

Company Introduction

Welcome to Teen-Hot,a leading global supplier of high-quality crucibles designed for various industrial applications. We offer an extensive range of crucibles, including graphite, ceramic, and metal varieties, tailored to meet the needs of foundries, laboratories, and manufacturers. Our products are renowned for their durability, thermal resistance, and precision engineering, ensuring optimal performance in melting and heat treatment processes. With advanced manufacturing facilities and a commitment to excellence, we provide reliable, cost-effective solutions worldwide. Partner with us for your crucible needs and experience superior quality, expert support, and timely delivery.

If you have any questions, please feel free to contact us(nanotrun@yahoo.com).

Payment Methods

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

Shipment Methods

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

5 FAQs of Refractory alumina ceramic crucible mullite cordierite rectangle lithium battery zirconia ceramic coated saggar for sintering

What is a refractory alumina ceramic crucible used for? These crucibles handle high-temperature processes. They are common in labs and industries. They melt metals, sinter ceramics, and test materials. They work with lithium battery materials. They resist heat and chemicals. They keep materials stable during heating.

What materials are these crucibles made of? The main materials include alumina, mullite, cordierite, and zirconia. Alumina offers high-temperature strength. Mullite resists thermal shock. Cordierite reduces heat loss. Zirconia coatings add extra protection. These materials make the crucibles durable. They last longer under extreme conditions.

What temperatures can these crucibles withstand? Alumina crucibles reach 1800°C. Mullite handles up to 1600°C. Cordierite works below 1400°C. Zirconia-coated saggars manage similar ranges. The exact limit depends on the material. Always check the product specs. Exceeding temperatures may damage the crucible.

Are custom sizes available for these crucibles? Yes. Manufacturers offer custom shapes and sizes. Rectangular designs fit battery sintering setups. Dimensions match furnace or production needs. Provide details like length, width, and thickness. Custom options ensure better performance for specific tasks.

How do I maintain these crucibles? Avoid sudden temperature changes. Let them cool slowly after heating. Clean residues with mild abrasives or solvents. Do not use harsh chemicals. Store them in dry places. Check for cracks before reuse. Proper care extends their lifespan.

(Refractory alumina ceramic crucible mullite cordierite rectangle lithium battery zirconia ceramic coated saggar for sintering)