Overview of Silicon Carbide Crucible

Silicon carbide (SiC) crucibles are advanced ceramic vessels known for their exceptional thermal conductivity, high strength, and resistance to thermal shock. These crucibles can withstand extreme temperatures up to 1600°C and are highly resistant to chemical attack, making them ideal for melting metals, alloys, and other materials in both laboratory and industrial settings.

Features of Silicon Carbide Crucible

High Thermal Conductivity: Efficient heat transfer ensures uniform heating and rapid temperature changes.

Thermal Shock Resistance: Can endure rapid temperature fluctuations without damage.

Chemical Inertness: Resistant to most acids and alkalis, minimizing contamination.

Temperature Range: Operates effectively at temperatures up to 1600°C.

Mechanical Strength: Extremely durable and strong, even under harsh conditions.

Non-Reactive: Does not react with the materials being processed, preserving sample purity.

Long Service Life: Durable construction ensures extended use and reliability.

(Wear-Resistant Tungsten Carbide Crucible for Laboratory and Industrial Use)

Specification of Wear-Resistant Tungsten Carbide Crucible for Laboratory and Industrial Use

The wear-resistant tungsten carbide crucible serves laboratory and industrial applications. It handles high-temperature processes and corrosive materials. The crucible is made from a tungsten carbide composite. This material combines toughness with resistance to wear. It maintains structural integrity under extreme conditions. The composition includes tungsten carbide particles bound in a cobalt matrix. This mix enhances hardness and reduces brittleness. The crucible withstands temperatures up to 1400°C. It resists thermal shock during rapid heating or cooling. The smooth inner surface minimizes material adhesion. It ensures easy cleaning between uses. The cylindrical shape promotes uniform heat distribution. It works for melting, casting, and chemical analysis tasks. Industrial uses include metal smelting and glass production. Laboratories apply it for sample preparation and precision experiments. The crucible resists acids, alkalis, and molten salts. It outlasts traditional ceramic or graphite alternatives. Thick walls provide extra durability under mechanical stress. The design includes a reinforced rim to prevent chipping. Standard sizes range from 10ml to 2000ml capacity. Custom dimensions are available for specialized needs. The product undergoes quality checks for density and porosity. Each batch is tested for leaks and thermal stability. Proper handling extends service life. Users should avoid sudden temperature changes above 1000°C. Cleaning requires non-abrasive tools to preserve the surface. Storage in dry conditions prevents oxidation. The crucible suits induction furnaces and resistance heating systems. It complies with safety standards for high-temperature equipment. Industrial operators note reduced downtime due to its longevity. Researchers appreciate consistent results from minimal contamination risks. The product ships with a protective coating to prevent scratches during transit. Technical support is available for usage guidelines and troubleshooting.

(Wear-Resistant Tungsten Carbide Crucible for Laboratory and Industrial Use)

Applications of Wear-Resistant Tungsten Carbide Crucible for Laboratory and Industrial Use

Wear-resistant tungsten carbide crucibles serve critical roles in labs and industries. These crucibles handle extreme conditions. They resist high temperatures. They withstand corrosive substances. Their durability makes them reliable for repeated use. Labs use them for melting metals. They work with materials like gold, silver, platinum. High-purity samples need contamination-free containers. Tungsten carbide ensures minimal interaction with samples. Industrial settings rely on these crucibles for metallurgy. They melt alloys requiring consistent heat distribution. Traditional materials like ceramic or graphite wear out faster. Tungsten carbide lasts longer under similar stress. Chemical processing plants use these crucibles for corrosive reactions. Acids and alkalis damage weaker materials. Tungsten carbide holds up well. This reduces downtime for replacements. Electronics manufacturing benefits from these crucibles. They produce semiconductor materials needing precise temperature control. Even heating prevents defects in final products. Mining operations use them for assaying precious metals. High wear resistance ensures accurate results over many tests. The aerospace industry applies tungsten carbide crucibles for creating heat-resistant components. They melt superalloys used in jet engines. Consistency matters here. Any impurity risks part failure. These crucibles maintain purity. Food processing equipment sometimes uses tungsten carbide parts. They meet hygiene standards. They resist chemical cleaners used in sanitization. Durability lowers long-term costs. Labs and factories save money by reducing replacement frequency. Handling abrasive materials is another key use. Grinding or mixing abrasive powders wears down ordinary containers. Tungsten carbide surfaces stay smooth. This prevents contamination from eroded material. Custom shapes and sizes are available. They fit specialized equipment in research or production lines. Users choose these crucibles for their balance of strength and versatility. Performance remains stable across temperatures from 500°C to 1300°C. Thermal shock resistance prevents cracking during rapid temperature changes. This reliability suits unpredictable industrial environments. Operators prioritize safety. Tungsten carbide’s stability reduces risks of leaks or breakage. These crucibles meet demands where precision and endurance are non-negotiable.

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 Wear-Resistant Tungsten Carbide Crucible for Laboratory and Industrial Use

What is a tungsten carbide crucible. It is a container made from tungsten carbide. This material combines tungsten and carbon. It is used in labs and industries for high-temperature processes. The crucible holds metals, chemicals, or other materials during heating. Tungsten carbide is chosen for its hardness and durability. It resists wear better than steel or ceramic. This makes it last longer in tough conditions.

How hot can a tungsten carbide crucible get. It handles temperatures up to 1400°C. Some grades withstand even higher heat. This depends on the exact material mix. It works well in furnaces or during melting. Other materials like steel or graphite may warp or crack at these temperatures. Tungsten carbide stays stable.

How do I clean a tungsten carbide crucible. Let it cool first. Use a soft brush or cloth with mild detergent. Avoid harsh chemicals or abrasive tools. These can scratch the surface. Rinse with water and dry completely. Store it in a dry place. Proper cleaning prevents contamination in future uses.

Does tungsten carbide resist chemicals. Yes. It does not react with most acids, alkalis, or solvents. This makes it good for chemical labs. Strong oxidizing agents like nitric acid might damage it. Check the chemical compatibility before use. The crucible stays intact in corrosive environments.

Is a tungsten carbide crucible cost-effective. The initial cost is higher than steel or ceramic. It lasts much longer. Frequent replacements are unnecessary. This saves money over time. Industries prefer it for heavy-duty tasks. Labs benefit from its reliability. The long-term value outweighs the upfront price.

(Wear-Resistant Tungsten Carbide Crucible for Laboratory and Industrial Use)