Overview of High Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications

High Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications is advanced porous structures made from high-purity aluminum oxide (Al₂O₃). Designed for extreme temperature (up to 1600°C) and chemical resistance, they provide efficient filtration of molten metals, gases, and aggressive fluids in industries like metallurgy, chemical processing, and environmental engineering.

Key Features of High Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications

High-Temperature Stability – Withstands up to 1600°C without structural degradation
Controlled Porosity – Precise pore sizes (10-1000µm) for tailored filtration efficiency
Exceptional Chemical Resistance – Resists acids, alkalis and corrosive media
High Mechanical Strength – Maintains integrity under pressure and thermal cycling
Customizable Shapes & Sizes – Available in discs, tubes, and complex geometries

(High Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications)

Specifications of High Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications

This High Performance Alumina Ceramic Filter Plate delivers remarkable performance for hard mining dewatering tasks. It manages continual high-pressure filtering accurately. The plate is made from costs alumina ceramic. This material provides exceptional firmness and wear resistance. It holds up against continuous abrasion from mineral slurries. The plate also stands up to strong acids and antacids discovered in mining processes. Chemical assault won’t deteriorate it promptly.

Standard plate thickness ranges from 10mm to 50mm. This gives structural strength under stress. Porosity levels typically drop in between 30% and 45%. This high porosity allows maximum water passage. Pore dimensions are personalized. Typical choices are 10 microns, 20 microns, 40 microns, and 60 microns. You select the size based upon your details particle separation demands. The exact pore framework makes sure clear filtrate.

Water moves via the plate effectively. This causes rapid dewatering cycles. Expect purification rates from 0.5 to 3 cubic meters per hour per square meter. Home plate keeps this flow regularly. It takes care of running stress as much as 1.0 MPa. This is crucial for deep dewatering applications. The plate shows outstanding thermal stability also. It withstands temperatures going beyond 1000 ° C. Sudden temperature adjustments won’t crack it. Thermal shock resistance is exceptional.

Mechanical stamina is crucial. The plate flaunts a high 3-point flexural strength. It goes beyond 200 MPa. This prevents breakage throughout setup and procedure. Home plate style frequently includes integrated bolt openings. This streamlines secure mounting right into filter presses. Proper installation makes sure leak-free efficiency. Routine backwashing cleanses the pores successfully. This restores flow prices and extends service life considerably.

(High Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications)

Applications of High Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications

Mining operations require to get rid of water from mineral concentrates and tailings. This step is important. High performance alumina ceramic filter plates fix this trouble effectively. These plates are the core component of filter presses utilized in mining dewatering.

Alumina ceramic is extremely challenging. It stands up to wear from rough mineral particles incredibly well. This toughness means home plates last a lot longer than traditional products. Replacements take place much less usually. This conserves cash over time. Home plates manage high stress squeezing as well. This stress forces water out successfully.

The surface of the ceramic plate has countless tiny pores. These pores are very small. They let water pass through quickly. Yet they catch solid mineral bits successfully. This splitting up is really fine. It generates drier filter cakes. Drier cakes mean less moisture transported or kept. This cuts prices even more. Much less water weight suggests lower transportation fees.

These ceramic plates function faster than older materials. They permit quicker cycles on the filter press. A lot more worldly obtains refined in the very same time. Manufacturing rates raise. Home plates also need less power to run. Vacuum pumps or compressors work less tough. This decreases power bills substantially.

Cleaning home plates is simple. Their smooth surface area avoids fragments sticking badly. Straightforward backwashing or chemical cleansing generally works. Downtime for maintenance is minimized. Operators appreciate the dependability. Filter presses run longer with less disruptions.

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 Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications

What makes these ceramic plates last longer than polymer filters?
Alumina ceramic is extremely hard. It resists wear from abrasive mining slurries much better. Polymer filters degrade faster under constant particle abrasion. Ceramic plates withstand this harsh environment. Their lifespan is significantly longer. This reduces replacement frequency and downtime.

How fine of particles can these plates capture?
They capture particles down to 0.5 microns effectively. The fine, uniform pore structure acts like a sieve. It traps tiny solids in the slurry. This results in very clear filtrate water. Polymer filters often struggle with such fine particles. They might let more solids pass through.

Can these plates handle acids or alkalis in the slurry?
Yes. Alumina ceramic is chemically inert. It won’t corrode or break down when exposed to most acids and alkalis common in mining. Many metal or polymer filters suffer damage from these chemicals. Ceramic plates maintain their structure and performance. This reliability is crucial for consistent dewatering.

Is cleaning these ceramic filters difficult?
No, cleaning is straightforward. The smooth, non-stick ceramic surface releases filter cake easily. Backwashing with water or air usually suffices. Stubborn buildup is rare. This simplicity keeps maintenance quick and operational costs lower. Complex cleaning procedures aren’t needed.

Are they more expensive upfront? Is the cost justified?
Initial cost is higher than basic polymer filters. Consider the total cost over time. The much longer lifespan means fewer replacements. Reduced maintenance downtime saves money. Lower energy use due to efficient dewatering adds savings. The durability and performance offset the initial investment quickly. They prove cost-effective for demanding mining applications.

(High Efficiency Alumina Ceramic Filter Plate for Mining Dewatering Applications)