Overview of Industrial Ceramics Punching Alumina Ceramics Dsc Tga Crucible for Thermometric Analysis Pan

Industrial Ceramics Punching Alumina Ceramics Dsc Tga Crucible for Thermometric Analysis Pan is manufactured from high-purity aluminum oxide (Al₂O₃, 95%-99.8%), offering exceptional mechanical strength and thermal stability. These components are precision-engineered to meet strict tolerances, ensuring reliable performance in demanding environments. With a maximum operating temperature of 1800°C, they are widely used across industries including semiconductor, automotive, chemical processing, and medical equipment. Available in various shapes (rods, tubes, plates, washers) and surface finishes to suit specific application requirements.

Key Features of Industrial Ceramics Punching Alumina Ceramics Dsc Tga Crucible for Thermometric Analysis Pan

Extreme Temperature Resistance – Withstands continuous operation up to 1800°C

Superior Mechanical Properties – High hardness (Mohs 9) and compressive strength

Excellent Wear & Corrosion Resistance – Outlasts metals in abrasive environments

Electrical Insulation – High dielectric strength for electronic applications

Chemical Inertness – Resistant to acids, alkalis and molten metals

Precision Manufacturing – Tight tolerances (±0.01mm) for critical applications

(Industrial Ceramics Punching Alumina Ceramics Dsc Tga Crucible for Thermometric Analysis Pan)

Specification of Industrial Ceramics Punching Alumina Ceramics Dsc Tga Crucible for Thermometric Analysis Pan

These crucibles are made from high-purity alumina ceramics. Alumina is a strong, hard material. It handles high temperatures very well. These qualities make alumina perfect for thermal analysis crucibles. The crucibles are shaped using a precise punching process. This ensures consistent dimensions and smooth surfaces. Consistency is vital for reliable experimental results.

The crucibles come in standard sizes. Common sizes fit instruments like DSC and TGA machines. They hold small sample amounts, usually milligrams. Their small size allows for fast, uniform heating and cooling. This is necessary for accurate temperature measurements. The material itself has excellent thermal stability. It does not easily react with most samples. This inertness prevents contamination of your test materials.

The crucibles feature a fine surface finish. A smooth inner surface minimizes sample sticking. This makes cleaning easier between uses. Their robust construction withstands repeated heating cycles. They resist thermal shock effectively. Sudden temperature changes won’t easily crack them. Durability means they last longer, saving costs.

These alumina crucibles work reliably under demanding conditions. They perform consistently across many heating and cooling runs. Users find them dependable for precise thermometric analysis. Laboratories use them for testing materials like polymers, chemicals, and pharmaceuticals. They are essential tools for understanding material behavior with heat.

(Industrial Ceramics Punching Alumina Ceramics Dsc Tga Crucible for Thermometric Analysis Pan)

Applications of Industrial Ceramics Punching Alumina Ceramics Dsc Tga Crucible for Thermometric Analysis Pan

Our alumina ceramic DSC TGA crucibles are essential tools for precise thermal analysis. They are specifically designed for Differential Scanning Calorimetry (DSC) and Thermogravimetric Analysis (TGA). These crucibles hold your sample material during heating or cooling experiments. The data collected helps understand material properties. Alumina ceramic is the perfect material for these demanding applications. It offers exceptional thermal stability. The crucibles can withstand very high temperatures without deforming. This is crucial for accurate measurements. Chemical inertness is another key benefit. Alumina ceramic does not react with most samples. This prevents contamination and ensures pure results. We use high-purity alumina. This minimizes background signals during analysis. Our crucibles are manufactured using precise punching techniques. This ensures consistent dimensions and wall thickness. Consistency is vital for reliable and repeatable experiments. The smooth surface finish minimizes sample sticking. This aids in complete sample recovery after testing. These crucibles are durable. They resist thermal shock well. You can use them for multiple runs. This saves costs over time. They are compatible with leading DSC and TGA instruments. Using these crucibles provides confidence in your thermometric data. They deliver the performance needed for research and quality control.

Company Profile

Alumina Technology Co., Ltd,. We focus on the research and development, production and sales of alumina products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2005, 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 Alumina Boat, Alumina Crucible, Alumina Dish, Alumina Foam Filter, Alumina Plate, Alumina Rod, Alumina Bar, Alumina Balls, Filter Alumina, Nano Alumina Powder, Spherical Alumina Powder, ect. 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 Industrial Ceramics Punching Alumina Ceramics Dsc Tga Crucible for Thermometric Analysis Pan

Industrial ceramics punching alumina ceramics DSC TGA crucibles are essential for thermometric analysis. They hold samples inside instruments like DSC or TGA machines. These crucibles experience high temperatures during testing. People often have questions about them. Here are five common ones.

What are these crucibles used for? They are small containers. Scientists put material samples inside them. The crucible sits in the analyzer. The machine heats it up. This lets researchers see how the sample changes with temperature. It measures things like melting points or weight loss.

Why use alumina ceramics? Alumina is very stable. It doesn’t react with most chemicals. This is crucial. Contamination ruins test results. Alumina handles extreme heat well. It stays strong. It doesn’t melt or break down easily. This makes data reliable.

What does punching mean? Punching shapes the ceramic. Machines press alumina powder into the crucible form. This method is efficient. It creates many identical crucibles fast. Punching ensures consistent size and shape. This consistency matters for precise testing. Every crucible performs the same way.

How hot can they get? These alumina crucibles handle very high temperatures. They work fine above 1500°C. They won’t melt or deform. They keep the sample contained safely. This high temperature range suits demanding analysis. It covers most material studies.

How do you clean them? Cleaning is important. Reuse saves money. First, remove any sample residue completely. Use appropriate cleaning solutions. Ultrasonic baths help sometimes. Crucibles must be completely dry before reuse. Any leftover moisture affects results. Inspect them for damage. Replace cracked crucibles.

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