Overview of High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water

High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water 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 High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water

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.

(High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water)

Specification of High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water

These ceramic filters take care of severe warm in metal factories. They clean up copper water properly. The filters are made from strong materials. Alumina silicon carbide and zirconia are the main parts. These products withstand very high temperatures. They stay secure under tough foundry problems.

The filter framework is open foam. This develops several little pathways. Molten copper streams through these paths. Strong pollutants obtain trapped inside the foam. Clean metal goes through the filter. This boosts copper top quality substantially. The elimination of oxides and slag is vital. It prevents defects in last castings.

Temperature level resistance is important. These filters function above 1400 ° C. They stand up to the extreme warmth of molten copper. The materials do not break down. They keep their shape and strength. This makes sure trusted filtering each time. Factories require constant efficiency.

Various sizes and shapes are offered. Filters fit typical filter real estates. Installment is straightforward. Area the filter in the metal circulation course. The liquified copper enters the filter box. It streams through the ceramic foam. Pollutants are caught. Clean copper departures the filter.

Utilizing these filters uses clear benefits. They get rid of harmful inclusions. This leads to smoother copper spreadings. Fewer denies take place. Product high quality boosts. The filters last with lots of cycles. This decreases operating costs gradually. Steel factories achieve much better results.

(High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water)

Applications of High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water

Molten copper needs major purification. Impurities like slag and oxides damage end product high quality. These flaws trigger cracks, porosity, weak spots. Shops require robust solutions. High-temperature alumina silicon carbide and zirconia foam ceramic filters deliver. They manage extreme heat directly in copper streams.

These filters survive extreme factory problems. Alumina silicon carbide offers outstanding thermal shock resistance. It will not split under unexpected temperature level changes usual in pouring. Zirconia provides outstanding stamina at high heat. Both materials withstand chemical assault from liquified copper. This durability suggests lengthy filter life, minimized downtime.

The open-cell foam structure is crucial. It looks like a rigid sponge. This style develops a complicated course for the molten metal. As copper flows with the tiny pores, non-metallic pollutants obtain caught. Bigger bits are captured on the filter surface. Smaller sized additions are recorded deep inside the foam matrix. The result is cleaner steel draining.

Cleaner copper suggests much better spreadings. Decreased pollutants decrease issues like porosity and additions. This boosts the mechanical residential properties of the last copper components. Toughness, ductility, conductivity all benefit. Fewer issues mean less scrap, lower expenses. Constant purification brings about extra reputable production runs. Making use of these filters is a straight action in the direction of better copper items.

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 High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water

What materials make up this filter?
It uses alumina, silicon carbide, and zirconia. These materials are very strong. They handle extreme heat well. They don’t break down easily in metal foundries.

Why use this for filtering copper water?
Copper water often has dirt and tiny bits of waste. This filter catches those impurities. It makes the copper pure. Pure copper means better quality castings.

How does the filter trap impurities?
The filter has a foam-like structure. It has many small holes. Molten copper flows through these holes. Solid impurities get stuck inside. Clean metal passes through.

What temperatures can it withstand?
It resists heat up to 1600°C. Copper casting needs high heat. Ordinary filters might melt. This one stays intact. It works safely in hot furnaces.

How long does one filter last?
It lasts through multiple pours. Heavy use might wear it faster. Check it regularly for cracks or damage. Replace it if you see wear. This keeps filtering efficient.

(High-Temperature Resistance Alumina Silicon Carbide, Zirconia Foam Ceramic Filter for Metal Foundry to Filter Copper Water)