Overview of Industrial Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF

Industrial Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF (α-Al₂O₃) is an advanced ceramic material with ultrafine particle sizes (20-200nm) and high purity (99.9%+). Its exceptional surface area, hardness, and thermal stability make it ideal for high-performance applications, including ceramics, coatings, catalysts, and composite materials.

Key Features of Industrial Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF

Ultrafine Particle Size – 20-200nm for superior reactivity and dispersion.

High Purity (99.9%+) – Minimizes impurities for precision applications.

Excellent Thermal Stability – Withstands extreme temperatures (up to 1600°C).

Enhanced Mechanical Properties – Improves hardness, wear & corrosion resistance.

Wide Applications – Used in coatings, catalysts, electronics, and advanced ceramics.

(Industrial Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF)

Specification of Industrial Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF

This alumina powder boosts lithium-ion battery safety and security and efficiency. It is the ceramic coating product MF. This powder is micro-nano quality. Its particle dimension is very tiny and controlled. Consistent particles are essential. They make sure a regular coating layer. This layer safeguards the battery separator. The powder formula is Al ₂ O TWO. Its CAS number is 1344-28-1. This recognizes the specific alumina oxide. High pureness is crucial. Contamination degrees are extremely reduced. This pureness avoids undesirable responses inside the battery cell.

The finishing creates a ceramic overlay on the separator surface area. This overlay acts like a solid barrier. It stops lithium dendrite growth. Dendrites can puncture the separator. That triggers harmful short circuits. The ceramic covering literally obstructs them. This significantly boosts battery safety and security. The covering also holds up against heats. It keeps the separator stable during operation. This thermal security protects against shrinking or melting. Battery integrity increases.

The micro-nano alumina fragments provide exceptional bond. They bond well with the separator material. This creates a solid, sturdy covering. The finish layer continues to be undamaged over many charge cycles. Battery lifespan enhances. The powder refines conveniently. It blends well right into finish slurries. This makes sure smooth application during battery manufacturing. Constant finishing high quality is possible. The result is a high-performance ceramic layer. It delivers better thermal resistance. It offers remarkable mechanical toughness. It gives improved electric insulation. These elements integrate for more secure, longer-lasting lithium-ion batteries. This material matches requiring commercial applications. It satisfies the needs of sophisticated battery producers.

(Industrial Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF)

Applications of Industrial Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF

This alumina powder assists make much better lithium-ion batteries. It enhances the separator layer inside these batteries. The separator maintains positive and negative parts apart. Alumina powder makes the separator more powerful. It prevents little holes from developing. This makes batteries more secure. It stops internal brief circuits. Alumina powder additionally deals with battery electrodes. Including it to the cathode finish improves stability. This helps the battery last much longer. It manages more charge and discharge cycles. The powder fills up gaps well. This creates smoother, more also layers. Better layers imply better battery efficiency. Alumina powder stands up to high warmth also. This adds one more safety layer for batteries.

This exact same powder is crucial for tough ceramic finishings. These layers protect surfaces. Alumina powder provides the layer hardness. It makes surfaces withstand scrapes and wear. Machines parts last much longer. Industrial tools maintain their side. Alumina powder deals with severe temperature levels. Coatings stay secure in very warm or chilly problems. This is very important for engines and pipelines. The powder bonds strongly with steels and ceramics. This creates a durable, lasting shield. It secures against chemicals and rust. Manufacturing facilities use these coverings on pumps and shutoffs. Mining equipment requires this protection. Aerospace parts take advantage of the warm resistance. The fine powder develops a smooth coating. This smoothness reduces friction. Moving components function much better. Much less power is squandered. Equipment runs much more effectively. These layers save cash on repair services. They prolong the life of expensive equipment.

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 Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF

This product is micro-nano alumina powder. Its CAS number is 1344-28-1. It’s used to make a special ceramic coating for lithium-ion batteries. This coating is applied to important parts inside the battery. It helps batteries work better and last longer. It also makes batteries much safer. Here are answers to common questions:

What is this alumina powder for? It’s for making a ceramic layer on battery parts. This layer mainly goes on the separator. It also coats the electrodes. This coating protects the battery parts. It stops problems that make batteries fail early.

Why use this alumina coating? Batteries get hot. This heat can cause fires. The alumina coating acts like a shield. It stops the hot parts inside the battery from touching each other. This prevents fires. It also helps the battery handle more charging cycles. Your battery keeps working well longer.

How does the coating make batteries safer? The ceramic layer is very tough. It doesn’t catch fire. It blocks tiny metal pieces called dendrites. Dendrites can grow inside batteries. They cause short circuits. The coating stops dendrites. This reduces the risk of battery fires. It makes the battery much more reliable.

What are the main benefits? First, the battery lasts longer. Second, it handles high temperatures better. Third, it charges faster. Fourth, it’s much safer. Fifth, the coating process is simple. Factories can add it to their existing battery production lines easily. There’s no big change needed.

How is the coating applied? The alumina powder is mixed into a liquid. This liquid is then spread onto the battery parts. It can be coated directly onto the separator material. It can also be coated onto the electrodes. The coated parts are then dried. This leaves a thin, strong ceramic layer. This layer is key to the battery’s high performance.

(Industrial Lithium Ion Battery 1344-28-1 Oxide Micro-Nano Alumina Powder Ceramic Overlay High Performance Ceramic Coating MF)