High alumina ball Al2O3(%):99.3 Bulk density(g/cm³):3.92 Wear rate(%):0.006 FEATURES: Higher density; Higher hardness; Higher wear resistance; Higher grinding efficiency. APPLICATION: Minerals industry Chemical industry Metallic minerals like copper, silver, nickel, gold, zinc, etc. Non-metallic minerals like calcium carbonate, kaolin clay, zirconium silicate, TiO2 and other minerals White pigments, coatings, paints, inks, etc. -
Alumina Grinding Ball Usage:Wet grinding Al2O3(%):92 Hardness(Mohs):9 Grinding media is characterized by: Higher density; Higher hardness; Higher wear resistance; Higher grinding efficiency. SPECIFICATION Application Area Used in high speed stirred grinding mills; Ball mills as abrasive media for ceramic raw materials; Glaze materials in ceramic factories, cement factories, enamel factories; Used in glass work,owing to the excellence of high density, high hardness, and high wear rate. During the abrasive/grinding processing, ceramic balls will not break up,they will not pollute the grinded material as well; The mix and crush procedure of ceramics, glass, glaze and frits, chemical and plastic industries. Method of application: Used in wet grinding method: A. Final Assembly of ball in ball mills a total volume of 55%. Empirical formula: M=3.14*R2*D*L*25%/1000 (Note: M= charged alumina ball quantity number of added alumina balls D= alumina ball density(g/cm3) D= alumina ball density (g/cm3) density of alumina ball R= radius of ball mill RADIUS r = radius of ball mill ball mill L= length of ball mill Length l = length of ball mill ball mill) For a new installation of ball mill, loading specifications and dimensions of the ball depends on the size and weight of the ball mill. B. Increase volume of ball = Initial amount of ball*Wear rate*Grinding time Used in dry grinding methods: Dry grinding is widely used in mining, ceramics, powders and other industries. Wear of grinding media for split industry pollution of raw materials, we developed the dry grinding ball of low toughness, wear, solves the grinding media of widespread pollution problems of raw materials. Dry grinding with grinding ball ratio depends on the raw material of hardness and the grinding of rough, usually by isostatic molding grinding balls.
Alumina grinding ball: Usage:wet grinding Al2o3(%):92 Hardness(mohs):9 Features: Higher density; Higher hardness; Higher wear resistance; Higher grinding efficiency. Application area: Used in high speed stirred grinding mills; Ball mills as abrasive media for ceramic raw materials; Glaze materials in ceramic factories, cement factories, enamel factories; Used in glass work, owing to the excellence of high density, high hardness, and high wear rate. During the abrasive/grinding processing, ceramic balls will not break up, they will not pollute the grinded material as well; The mix and crush procedure of ceramics, glass, glaze and frits, chemical and plastic industries. Method of application: Used in wet grinding method: A. Final assembly of ball in ball mills a total volume of 55%. Empirical formula: m=3.14*r2*d*l*25%/1000 (note: m= charged alumina ball quantity number of added alumina balls D= alumina ball density(g/cm3) D= alumina ball density (g/cm3) density of alumina ball R= radius of ball mill Radius r = radius of ball mill ball mill L= length of ball mill Length l = length of ball mill ball mill) For a new installation of ball mill, loading specifications and dimensions of the ball depends on the size and weight of the ball mill. B. Increase volume of ball = initial amount of ball*wear rate*grinding time Used in dry grinding methods: Dry grinding is widely used in mining, ceramics, powders and other industries. Wear of grinding media for split industry pollution of raw materials, we developed the dry grinding ball of low toughness, wear, solves the grinding media of widespread pollution problems of raw materials. Dry grinding with grinding ball ratio depends on the raw material of hardness and the grinding of rough, usually by isostatic molding grinding balls.
Pularin: Foot ball shaped 60 atoms of carbon at edges is layed in pularin.Pularin atoms are arranged in ball. Each atom is called Bucky balls and tubes are called Bucky tubes or Nano tubes.Each nano tube is 1 to 7 nm diameter i.e 1nm=50000 part of a hair sting. where? 1)mangampet ,cuddapah dist.Ap,India.app 800 ppm(parts prer million)info given by stanford University. Cost: 150 times costlier than gold. 10 grams pularin $23000 to $45000 also info given by Bucky-USA website. Special uses if this becomes common: 1)Pularin coting on aeroplanes withstands from thunders ,rains ,Flashes etc. 2)Bullet proof ackets 3)curing cancer etc.
Ball Clay: A member of kaolinite family, Ball Clay is renowned for its plasticity and green strength. They consists varying proportions of kaolinite, mica and quartz, with small amounts of organic matter and other minerals, and are commercially values because they increase the workability and strength of various ceramic bodies and have white or near white firing characteristics. Ball clay is processed to minimize the levels of coarse particles. This enhances better workability and higher strength. Applications : It forms a major part of many ceramic applications, including sanitary ware, tiles, table wares and to an increasing extent non-ceramic applications like functional fillers and advanced application for example technical ceramics.
Ball clay is majorly used as a basic material in the production of ceramics. They are fine-grained, highly plastic clays that are mostly used to make ceramic and sanitary ware. They are favored for their fluidity, unfired strength, and light color after firing Some specialized ball clays can provide extreme whiteness to the products. They are also employed as soil amendments in horticulture, refractories, polymers, adhesives, and sealants. We majorly source our ball clay mineral from the Bikaner region of Rajasthan. The physical properties of ball clay are high plasticity and unfired strength, refractoriness, along with controlled residue. The ball clay mineral has been an important mineral for the ceramic industry. We also use it in combination with other minerals. This leads to further enhancement of its properties and expands the usage of ball clay in many other industries. For instance, in sanitary ware, our ball clay mineral combined with Kaolin offers a cohesive advantage to the manufacturing. Further, for tableware and crockery manufacturing, we mix our ball clay with kaolin, feldspar and quartz. This gives high enough plasticity and a great white tone to the finished fired product. Ball clays are kaolinitic sedimentary clays that commonly consist of 20â??80% kaolinite, 10â??25% mica, 6â??65% quartz. The plasticity and bonding properties of the ball clay make it the perfect mineral to be used in the making of walls and floor tiles. Ball clay is also used in producing electrical porcelain insulators due to its high insulating properties. In the manufacturing of refractory bricks, we use our ball clay mineral which has high alumina content as binding agents. And, we can also use them as fillers and extenders in several industries such as plastics, rubber, pesticides, fertilizers and adhesives to mention a few. We at Aryan Tiles have an enormous selection of ball clay minerals and with our thorough knowledge of how our ball clay mineral can be used in manufacturing and optimizing our customersâ?? end products. It is our promise to aid our clients with our technical expertise, dedicated customer support and the premium quality ball clay mineral to advance our customersâ?? end products
Silica sand is a primary component in the manufacturing of glass. It is a very important raw material for standard and special glasses. The chemical purity of silica sand is the principal determinant of strength, colour and clarity. It is used to produce flat glass for building and automotive uses and for container glass that stores food and beverages. It reinforces glass fibres and required for the production of fibreglass insulation. It is applied in speciality glasses that include test tubes, scientific tools, television and CRT monitors, and also in incandescent and fluorescent lamps. Calcium silicate bricks For manufacturing calcium silicate bricks, silica sand is mixed with high calcium lime with a sand to lime ratio of 10 or 20. These bricks contain good regularity, smooth faces, and sharp corners with a wide variety of strength. The durability of calcium silicate bricks is similar to concrete and is not resistant to sulphur containing environments. Silica sand for water filtration Silica sand is an effetive filtration bed in the removal of contaminants in both processing of wastewater and in the filtration of the drinking water. Silica sand neutralizes the acidic elements to maintain optimal pH balance in water filters. As it is chemically inert, it will not react when exposed to acids, contaminants, volatile organics or solvents. Metal Casting & Production Silica sand is an essential part of the production of steel, ferrous and nonferrous foundry industries for de-oxidation and grain refinement. For obtaining desired internal or external shapes, metal parts are cast in silica sand. It is a preferred choice for castings that involve cast iron, steel, titanium and also used to clean the casting surfaces. Paints & Coatings Silica sand constitutes of high-performance properties such as brightness, reflectance, oil absorption and colour-consistency. These properties help to improve the overall appearance and durability of industrial and architectural paints and coatings. Its low oil absorption nature improves finishing colour that makes a durable coating rich in pigments. Silica fillers improvement retention and also provide resistance to dirt, mildew, weathering and cracking
Ball clay is a silicate clay rock of which kaolinite is the main constituent: Al2Si2O5(OH)4. Ball clays are kaolinitic clays in the family of silicate minerals. It commonly consists of kaolinite, mica, quartz silica, as well as few organic matters. Ball clay is formed from the weathering and transportation by water of parent rocks. Seams in the same deposit may vary in composition, depending on the quantity of the principal and accessory minerals. Ball clays are fine-grained, highly plastic clays, which are principally used in the manufacture of ceramic whiteware and sanitaryware where they are appreciated for their plasticity, unfired strength and their light colour on firing. Selected clays can even give pure white end products. Among others, ball clays are also used in refractories, in polymers, in adhesives and sealants and in horticulture as soil amendments. Ball clay is particularly valued as a base material in the manufacture of ceramics. Combined with kaolin, ball clays provide the cohesion and workability necessary for the creation of ceramic parts such as sanitaryware. While using it with kaolin, feldspar and quartz in tableware, ball clay confers high plasticity and a good white-fired colour to the end product. In wall and floor tiles, ball clays are prized for their plasticity and bonding properties. In glazes and engobes, they ensure a perfect finish. Electrical porcelain insulators Ball contain plastic clays to provide insulation from high voltage currents. BALL CLAY produced by Peekay Minerals are having the following charactsitics High plasticity High unfired mechanical strength Highly controlled rheological properties Controlled organic content Controlled residue Excellent workability End Users usually ask the following test results L Value firing test of whiteness Dry MOR Fired MOR at 1180 deg cent Water of Plasticity Shrinkage Sieve Analysis
- Material: 100Cr6, SKF3, GCr15, SKF3S; - Technical: Seamless , Process: Piercing, Cold Drawing, Spheroidizing Annealing, Annealing etc.; - Size Range: OD 10 ~ 160 mm, Wall thickness: 1~ 25 mm; Length: Customized; - Delivery Condition: (1) +C No heat treatment after the final cold drawing process, (2) +LC After the final heat treatment there is a suitable drawing pass,(3) +SR After the final cold drawing process there is a stress relieve heat treatment in a controlled atmosphere, (4) +A After the final cold drawing process the tubes are annealed in a controlled atmosphere, (5) +N After the final cold drawing operation the tubes are normalized in a controlled atmosphere; - Application: Widely Used in Bearing Industry and Automotive Parts, such as Hydraulic Cylinder Pipe, Steel ball, roller and collar of large machinery bearing, axis of rotation, blade, stator pump, profiling, sleeve, mandril, etc.; - Features: High and uniform hardness and wear resistance, and high elastic limit.
