Overview of Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters

Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters is advanced porous structures made from high-purity aluminum oxide (Al₂O₃). Designed for molten metal filtration, they effectively remove slag, oxides, and non-metallic inclusions, ensuring cleaner and higher-quality castings in aluminum, iron, steel, and other metal alloys.

Key Features of Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters

High-Temperature Resistance – Stable up to 1700°C, ideal for molten metal applications.

Uniform Porosity (10-100 PPI) – Customizable pore sizes for efficient impurity removal.

Excellent Thermal Shock Resistance – Withstands rapid temperature changes without cracking.

High Mechanical Strength – Durable under extreme casting conditions.

Chemical Inertness – Resists corrosion from molten metals and fluxes.

(Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters)

Specification of Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters

Micron makes unique ceramic filters. These filters clean metal liquids prior to spreading. They eliminate poor things like bubbles and dust. This makes steel components more powerful and far better.

The filters make use of strong products. Alumina ceramic is common. Silicon carbide ceramic is additionally utilized. Both handle really high heat. They don’t break down in hot metal. These materials are porous. That means they have several small openings. The openings allow tidy metal flow with. They trap unwanted little bits inside.

You get these filters in two primary shapes. Disc plates are level and round. They suit standard filter systems. Foam filters appear like sponges. They have a complicated open framework. This catches much more dust successfully.

The key feature is the opening dimension. We call this pore size. Micron offers various pore dimensions. Normal options are 10 PPI, 20 PPI, 30 PPI. PPI implies pores per inch. Reduced PPI means larger holes. Higher PPI implies smaller holes. You choose the pore dimension based on your metal and demands. Smaller openings capture finer dust.

These filters work with really hot liquids. They easily manage temperature levels over 1500 ° C. They do not melt or crack. This is important for shops. The ceramic product is chemically stable. It does not respond with most molten metals. This maintains the metal pure.

Clients make use of these for light weight aluminum, iron, steel, copper. They are important for top quality spreadings. Excellent filtration lowers waste. It improves the final product’s toughness. It makes surfaces smoother. Shops conserve money and time. Micron gives regular quality. The filters are trustworthy. You can purchase custom shapes and sizes.

(Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters)

Applications of Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters

Micron alumina, silicon, and silicon carbide porous ceramic disc plates and foam filters are vital tools popular commercial setups. They succeed at eliminating small pollutants from liquids and gases. These filters are extensively made use of in metal spreading. Foundries rely on them to clean molten light weight aluminum, iron, and steel. They trap unwanted particles like oxides and slag. This action protects against defects in last cast components. Cleaner metal implies more powerful, more dependable products.

The chemical market uses these filters as well. They deal with aggressive acids, bases, and solvents without breaking down. Their permeable structure enables precise separation of fine solids from fluids. This is crucial for producing pure chemicals and drugs. The filters resist high temperatures and thermal shock. They function well in furnaces and activators where conditions are extreme.

An additional essential application is in environmental systems. The filters catch soot and particulates from warm exhaust gases. Power plants and burners utilize them to decrease exhausts. They likewise filter warm gases in catalytic procedures. Their stability ensures lengthy service life under anxiety.

Water therapy gain from these ceramic filters. They remove micro-contaminants and put on hold solids from wastewater. Their resilience outperforms numerous polymer alternatives. The filters operate in rough, destructive water problems without degrading.

The electronics market uses them for semiconductor processing. They purify gases and chemicals throughout chip production. Even tiny contaminations can ruin delicate electronic parts. These filters provide the required purity.

Power storage systems like batteries employ them as separators. They take care of ion flow while obstructing undesirable particles. This improves battery safety and effectiveness. Their heat resistance is a significant advantage here.

The aerospace field values these filters for high-temperature applications. Jet engines utilize them to filter lubricating oils and gas. They maintain performance in severe atmospheres. Their reliability is important for flight safety.

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 Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters

What do Micron porous ceramic filters do?
They clean molten metal. Impurities like oxides and slag stick inside the tiny holes. Cleaner metal flows through. This makes stronger, better quality cast parts.

Why does pore size (PPI) matter?
PPI means pores per inch. Higher PPI has smaller holes. Small holes trap tiny impurities. Bigger holes let metal flow faster. Choose the PPI based on the metal and the impurities you need to catch.

How hot can these filters get?
They handle very high heat. Alumina and silicon carbide filters work above 1600°C. Silicon carbide handles even more heat. This suits most aluminum and iron casting temperatures.

Alumina, silicon carbide, or silicon bonded? Which is best?
Silicon carbide lasts longest under extreme heat and chemical attack. Alumina offers good performance for less demanding jobs. Silicon bonded is cost-effective for many aluminum applications. Pick the material matching your metal and process harshness.

How do I choose the right filter?
Think about your metal type. Think about casting temperature. Think about the impurity size you need to remove. Think about your required metal flow rate. Match these factors to the filter’s material, PPI, and shape.

(Micron Alumina/Silicon/SiC Porous Ceramic Disc Plate/Foam Filters)