Overview of High Temperature Refractory Al2o3 Alumina Ceramic Melting Crucible For Lab Thermal Analyzer

High Temperature Refractory Al2o3 Alumina Ceramic Melting Crucible For Lab Thermal Analyzer are non-metallic substances designed to withstand extreme temperatures exceeding 1,000°C, along with harsh chemical and physical stresses. They are essential for the inner linings of industrial furnaces, kilns, reactors, and incinerators, providing critical thermal insulation and structural integrity in processes ranging from metal and glass manufacturing to power generation.

Features of High Temperature Refractory Al2o3 Alumina Ceramic Melting Crucible For Lab Thermal Analyzer

• High-Temperature Resistance: Maintain structural strength and stability at temperatures often exceeding 1500°C.

• Excellent Thermal Shock Resistance: Withstand rapid heating and cooling cycles without cracking or spalling.

• Chemical Inertness: Resist corrosion and degradation from slags, molten metals, and acidic or basic environments.

• High Mechanical Strength: Possess considerable load-bearing capacity at operating temperatures.

• Low Thermal Conductivity: Provide effective insulation to improve energy efficiency and protect furnace structures.

• Abrasion Resistance: Withstand erosion from solid materials and gas flows.

Specification of High Temperature Refractory Al2o3 Alumina Ceramic Melting Crucible For Lab Thermal Analyzer

This alumina ceramic melting crucible deals with severe warm in laboratory thermal analyzers. It consists of a very high portion of Al2O3 (alumina). This makes it extremely resistant to warm. You can utilize it safely at temperature levels reaching 1750 ° C (3182 ° F). It handles short ruptureds of also greater warmth well. This crucible won’t easily split under abrupt temperature level modifications. It cools down and warms up dependably.

The product combat chemical strike highly. Acids and bases don’t damage it quickly. Molten metals and salts additionally struggle to respond with it. This maintains your examples pure during testing. The crucible remains secure over lots of home heating cycles. It doesn’t warp or degrade swiftly. This gives you constant results experiment after experiment.

This crucible is thick and hard. It resists wear from mixing and scuffing. Its smooth surface area stops materials from sticking. Cleaning up between usages is easy. The crucible form is maximized for effective warm transfer inside thermal analyzers. You obtain precise temperature level readings for your examples.

Manufacturers terminate these crucibles at ultra-high temperatures. This locks in their strength and stability. Every crucible goes through rigorous checks. We validate its dimensions, purity, and performance under warmth. This guarantees you receive a trusted device.

Lab service technicians rely upon this crucible for requiring thermal evaluation. It melts metals, alloys, and various other high-temperature products. It works in TGA, DTA, and DSC tools. It’s vital for researching product actions under intense heat.

Applications of High Temperature Refractory Al2o3 Alumina Ceramic Melting Crucible For Lab Thermal Analyzer

High temperature lab work demands reliable crucibles. Average containers stop working under extreme heat. Alumina ceramic melting crucibles resolve this problem. These crucibles are made from pure Al2O3 ceramic. Alumina offers extraordinary resistance to heat. It deals with temperature levels reaching 1600 ° C quickly. This makes it best for demanding thermal evaluation. Thermal analyzers like TGA and DSC require steady sample holders. Alumina crucibles supply this security. They won’t warp or fracture unexpectedly. Your experiments stay safe and accurate.

Material purity is important in laboratories. Pollutants mess up test results. High pureness alumina ceramic is chemically inert. It stands up to responses with a lot of samples. This avoids contamination. Your sample stays unmodified. You obtain trustworthy data every single time. The crucibles deal with numerous substances. They manage steels, oxides, salts, and glasses. They are also good for ash web content examinations. The smooth surface allows simple cleaning. Residue won’t stick strongly. This conserves time between examinations.

Thermal shock resistance is an additional key benefit. Labs entail fast home heating and cooling cycles. Affordable crucibles smash under this stress. Alumina crucibles soak up these adjustments well. They preserve structural stability follow run. This sturdiness implies fewer replacements. You save money lasting. Constant performance is ensured. Researchers count on alumina for crucial measurements. The crucibles fit basic thermal analyzer holders. Configuration is basic and fast. Your workflow isn’t disrupted.

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.

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

Shipment Methods

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

5 FAQs of High Temperature Refractory Al2o3 Alumina Ceramic Melting Crucible For Lab Thermal Analyzer

Here are 5 common questions about our High Temperature Alumina Ceramic Crucibles for Lab Thermal Analyzers:

What’s the highest temperature this crucible can handle?
Our crucibles withstand continuous use up to 1750°C (3182°F). They are designed for extreme heat inside thermal analyzers. This alumina material stays stable. It won’t melt or degrade at these temperatures. Your samples stay contained safely.

Can I use this crucible with any sample material?
These crucibles work well with many common lab samples. This includes metals, oxides, salts, and inorganic powders. Be careful with very reactive materials. Strong alkalis or hydrofluoric acid can damage the alumina. Check chemical compatibility first. It avoids crucible failure.

Why choose alumina instead of another ceramic?
Alumina offers key advantages. It has excellent high temperature strength. It resists thermal shock much better than many ceramics. This means less cracking when heating or cooling fast. Alumina is also very pure. It minimizes contamination of your samples. You get reliable analysis results.

How long does one crucible typically last?
Crucible life depends heavily on usage. Factors matter like the maximum temperature reached, heating/cooling speed, and sample chemistry. Under normal lab conditions, expect many uses. Handle it carefully. Avoid mechanical shock. Inspect it regularly for cracks or wear. Replace it when damaged.

How do I clean the crucible after use?
Cleaning is usually straightforward. Let the crucible cool completely first. Remove any leftover sample residue gently. Use a soft brush or tool. For stubborn material, high-temperature firing often helps. Burn off organic residues. Avoid harsh chemical cleaning unless necessary. Rinse thoroughly with pure water if chemicals are used. Dry it completely before reuse.