We recently got one inquiry for alumina grinding ball from one European customer, who use alumina ball for dry grinding quartz and looking for suggestion / recommendation from us.

Pls first check the technical specification for our high alumina grinding media ball as the following:

1) 92% alumina grinding ball

• Al2O3: 92% Min.
• Fe2O3: 0.25% Max.
• Mohs Hardness: 9
• Water absorption: 0.02% Max.
• Density: 3.60 g/cm3 Min.
• EWT: 0.15 Max.

2) 95% alumina grinding ball

• Al2O3: 95% Min.
• Fe2O3: 0.20% Max.
• Mohs Hardness: 9
• Water absorption: 0.02% Max.
• Density: 3.65 g/cm3 Min.
• EWT: 0.10 Max.

If your grinding work mode is batch grinding, then 92% alumina grinding ball is O.K., if your grinding work mode is continuous grinding, then 95% alumina grinding ball is most recommended.

Alumina grinding ball is the most ideal grinding media ball for the ceramics industry. High alumina grinding ball is high-density, ultra hard and clean, it can save the grinding time and keep your product clean.

The below quoted text is from one world class ceramic tile manufacturer named “INTERCERAMIC”, the original text url is: http://www.willis-flooring.com/interceramic/, from this text you will understand the usage and importantance of aluming grinding ball in the ceramic tiles manufacturing.

“HOW INTERCERAMIC WALL TILE IS MANUFACTURED

Interceramic begins the production process by procuring the finest raw materials available. The body is a combination of the earth’s natural resources and elements including silica, talc and calcium carbonate. Each of these ingredients is inspected for quality prior to entering the production process. The bulk clay is then broken down into a more manageable state in the crushers. Then the various clays are loaded onto large conveyors, where they are delivered to storage in which each raw material has its own silo.

Water and clay, in precise proportions, are then loaded into ball mills. These mills contain high-density alumina balls that grind the clay into a fine homogeneous mixture. The result is a product called body slip. Its viscosity is similar to that of a milkshake. The product then mills for several hours and is tested for viscosity, density and residue to see if further milling is required.

From the ball mill the body slip is stored in holding tanks that contain large paddles that keep the slip in a suspended state. These holding tanks can hold four ball mills worth of material.

From the storage tanks, the body slip is then pumped into the spray dryer. The burner in the dryer generates rapidly moving hot air that evaporates the moisture from the body slip. This creates fine particles of clay with a hole in the center. These particles are of various sizes and are controlled as they are formed in the evaporation process and travel through the burner. The granulation size is such that if a bucket were poured, it would flow like water. At this point, it is commonly called the powder. The powder is then transferred into large silos for storage. From the silos, the powder is taken to various presses by means of a conveyor system. The moisture content of the powder is approximately 5% at the time of press. There the powder is loaded into molds and compressed under approximately 690 tons of pressure to form the bisque. Bisque is what the tile is called prior to being glazed and fired. The bisque is then run through a horizontal dryer to further reduce the moisture content and to heat the tile prior to applying the glaze. The moisture content is reduced from 5% to less than 1% and exits the dryer at approximately 280 degrees Fahrenheit.

While the body is being prepared, the glaze is also in production at a designated area of the factory called glaze prep. Glaze is made primarily of frit – a man-made substance that contains silica, feldspar, nepalean, titanium and other compounds that are found naturally – and has some of the characteristics of ceramic and some characteristics of glass. All ingredients are milled with alumina balls and additives to control viscosity. From the silo, the glaze is filtered and put into transportable storage for the next step: the glaze line. Interestingly, all the glazes start with the same basic make-up, into which pigments are added to create the wide array of colors available in the Interceramic wall tile line.

It is worth noting that throughout the manufacturing process, goods are kept on hand as “goods in process.” This is critical to quality control and is necessary to run the kilns at capacity twenty-four hours a day, seven days a week. From the horizontal dryer, the bisque travels down the glaze lines where various types of glazes are applied, including waterfall applications, dry glaze and silk-screens. These applications will determine the style, color, design and surface texture. After the glaze application is complete, the tile, now called green ware, is temporarily stored in cars, which hold over one thousand square feet of tile. At this point, the tile will wait its turn to go through the roller hearth kiln.

At the hearth kiln, the glazed green ware travels through the kiln on rollers. The controlled firing curve causes two chemical reactions to take place – one in the body and one in the glaze – and the glaze is fused to the body. During the firing process, the wall tile body shrinks by less than one percent. Inside the kiln, temperatures reach 1100 degrees C, or close to 2000 degrees F. The kilns are designed to withstand these intense temperatures while operating at all times.

When the tile exits the kiln, it is loaded onto cars, transferred to storage racks and transported to a selection area. There the tile is unloaded onto the selection line where it is sorted visually by tones and class (firsts and seconds). Via electronic photo cells, the tiles are measured for squareness, caliber, wedging and warpage, and identified with an electronic marker. Tiles not meeting Interceramic’s standards are discarded for recycling; the rest are scanned by machinery designed to read the electronic marker and then sort and pack according to quality. Finally, the tile is packaged, labeled and bar coded by classification. From start to finish the product is never touched with the exception of the ultraviolet marker in the selection process. ”

We, HuaMing Alumina, China, is the leading manufacturer of high alumina grinding ball in China, our products 92% alumina grinding ball, 95% alumina grinding ball and high alumina ball mill linings are all of high quality and served the ceramic tiles manufacturer all over the world.

Ceramic grinding media, which is quite high in alumina and silica content, has several key advantages over traditional steel, slag and sand.

HuaMing alumina ceramic grinding beads are quite hard and spherical so waste less energy in rounding particles.  Ceramic ball has low friction and low wear rates, which means it achieves high grinding efficiency at a lower cost for coarse feeds.

Grinding media like steel, the outside is quite hard but the inside is softer so it wears a lot faster, whereas ceramic media has good mechanical integrity and maintains this characteristic as it wears.

In addition, ceramic media does not chemically or electro-chemically impact on the downstream flotation process.

“When you use steel media, for instance, it produces ferric ions, which tends to interfere with the chemistry of the particles and creates a passivating layer; this makes the particles hard to float or leach.”

“I don’t think people realise until they operate a plant without steel media just how important the chemical aspect is of downstream processing.”

“The consumption of ceramic media is much better than sand so you don’t need to have as much on hand.”

Another big advantage of ceramic media, especially in these days of escalating fuel costs, is power savings. These can range up to 20% compared with many sands.

“Using ceramic media is quite a cheap way of increasing your regrind capability. It also saves time with downstream processing by grinding to finer sizes and provides improvements in flotation and leaching afterwards.”

Alumina Grinding Ball, crush resistance and EWT (Equivalent Wear and Tear) Test

Equivalent Wear and Tear: the wear loss of alumina ball grinding with water in PU tank.

Testing method of the alumina grinding ball crush resistance and EWT (Equivalent Wear and Tear).

1) Test Theory

Test the wear-resistance of alumina grinding ball, grinding in the PU tank.

2) PU tank

PU tank, with size 200X200mm.

3) Wear-resistance tester

Load 4KGs alumina ball in the PU tank, continuous grinding at 80RPM.

4) Sampling alumina ball

Choose 4KGs of appearance quality and size qualified alumina ball, load in the PU tank, add 4KGs water, continuous grinding for 2 hours at 80RPM. Discharge the alumina balls, drying for nest step test.

5) Testing Process

Get the weight of the dried alumina ball (m1).

Put the samples in the PU tank, add 4KGs water, continuous grinding for 24 hours at 80RPM.

Discharge the alumina ball, cleaning and drying and get the weight (m2).

Select 10 balls and examine the ball diameter according the test standards.

For more details, pls goto: http://www.alumina-ball.com/resources.html

Alumina: (also called aluminum oxide). A compound of two parts aluminum and three parts oxygen which occurs naturally as corundum. Alumina is the base of aluminous salts, a constituent of feldspars, micas, etc., and the characterizing ingredient of common clay, in which it exists as an impure silicate with water, resulting from the erosion of other aluminous minerals. In a hydrated form it is bauxite. Alumina is used in aluminum production and in abrasives, refractories, ceramics, and electrical insulation.

Quoted from: http://www.jewelrysupplier.com/glossary/A-glossary.htm

Hi,

We now completed the China industry standards for alumina grinding ball, we believe this is useful to guide your purchase of alumina grinding ball.

Abstract:

Industry standards for Alumina Grinding Ball

JC/T 848.1 – 1999, China

1. Application Scope

The standards stipulate the product classification, technical requirement, testing method, inspecting regulations and sign, packing, transport and storage for alumina grinding ball.

The standards is applied to ceramic industry used alumina grinding ball with alumina content not less than 75%.

For full content, pls visit: http://www.alumina-ball.com/resources.html

Andy

Ball mill is an efficient tool for grinding many materials into fine powder. The Ball Mill is used to grind many kinds of mine and other materials, or to select the mine. Ball mill is widely used in building material, chemical industry, etc. There are two ways of grinding: the dry way and the wet way. It can be divided into tabular type and flowing type according to different expelling mine.

To use the Ball Mill, the material to be ground is loaded into the Neoprene barrel that contains grinding media. As the barrel rotates, the material is crushed between the individual pieces of grinding media that mix and crush the product into fine powder over a period of several hours.
Quite simply, the longer the Ball Mill runs, the finer the powder will be. Ultimate particle size depends entirely on how hard the material you’re grinding is, and the time how long the Ball Mill runs. Ball Mills have been used to grind glass, powder food products, create custom varnishes, make ceramic glaze, powder various chemicals, and make Black Powder.

We, HuaMing Alumina, can supply you alumina grinding ball for ball mill grinding media.

• 92% alumina grinding ball
• 95% alumina grinding ball
• Mill linings alumina brick