wear parts of ball mill black

mayang crusher spare parts: jaw crusher spare parts

mayang crusher spare parts: jaw crusher spare parts

In 1985, the predecessor of Mayang Company Wuyi Mayang Precision Casting Factory was established, Our company is specialized in producing high-manganese steel, alloy steel, high chromium cast iron, carbon steel, heat-resistant steel and other castings, At first establishing stage the company makes a tremendous investment in including the industrial plants of 120,000 square meters.

ball mill liner design

ball mill liner design

There are many different designs and styles of ball mill liners. As with grinding balls local economics and ultimately operating costs determine the best design and material to use. The initial set of liners is rarely the final design selected. Based upon individual experience, mill superintendents develop preferences for liner designs. The following is given as a guideline for the initial set of liners.

For 60 mm (2.5) and smaller top size balls for cast metal liners use double wave liners with the number of lifters to the circle approximately 13.1 D in meters (for D in feet, divide 13.1 D by 3.3). Wave height above the liners from1.5 to 2 times the liner thickness. Rubber liners of the integral molded design follow the cast metal design. If using the replaceable lifter bar design in either metal or rubber the number of lifters should be about 3.3 D in meters (for D in feet* divide 3.3 D by 3.3) with the lifter height above the liners about twice the liner thickness. The use of double wave liners, particularly when using 50 mm (2) or larger balls, may show a loss of 5% or so in the mill power draw until the waves wear in and the balls cannest between the lifters.

When liners, and double wave liners in particular, wear with circumferential grooves, slipping of the charge is indicated, and this warns of accelerated wear. When the top size ball is smaller than 50mm (2.5) and mill speed is less than 72% of critical wear resistant cast irons can be used. For other conditions alloyed cast steel is recommended.Rubber liners are well suited to this same area and not onlyreduce operating costs but can reduce noise levels.

Single wave liners are recommended for larger size balls (50mm/2.5 and larger). The number of the lifters to the circle equals approximately 6.6 D in meters (for D in feet, divide 6.6 D by 3.3). The liners are from 50 to 65 mm thick (2 to 2.5) with the waves from 60 to 75 mm (2.5 to 3) above the liners. The replaceable lifter bar design madeof either metal or rubber in about the same design proportions can be used. There could be a loss in power with rubber particularly if the mill speed is faster than about 72% of critical speed, and the ball size is larger than 75 mm. Because of the impacting from the large balls, single wave liners for ball mills are usually made from alloyed steels or special wear-resistant alloyed cast irons. Because of the difficulty of balancing growth and wear with work hardening manganese steel is used infrequently and then with extreme care to allow for growth.

When a grate discharge is used the grates and wear platesare normally perpendicular to the mill axis while the discharge pans conform to the slope of the mill head. The grates and wear plates are normally made from alloy wear resistant cast steel or rubber. They are ribbed to prevent racing and excessive wear. The dischargers and pans are generally made from either wear resistant cast ironor rubber, or wear resistant fabricated steel.Slot plugging can be a problem in grate discharge mills. Whether the grates are made of metal or rubber the slots should have ample relief tapered toward the discharge side. Total angles 7 to 10 degrees (3.5 to 5 degrees per side) are commonly used. Metal grates often havea small lead-in pocket or recess which can fill in with peened metal rather than have the slot peen shut. With the proper combination of metal internals and rubber surfaces, rubber grates have flexibility that tend to make them self cleaning and yet not fail due to flexing.

Except when using rubber liners, the mill surfaces are covered with a protective rubber or plastic material toprotect the surfaces from pulp racing and corrosion. This is done in wet grinding mills. Since dry grinding mills get hot due to heat from grinding generally rubber liners and rubber materials cannot be used.

Shell liners may be furnished of various materials and of several designs. In each case the material used is the best obtainable, resulting in the lowest cost per ton of ore ground. The liner contours are selected for the specific grinding application and take into consideration liner wear, scrap loss, and mill capacity.

Liners cast of Manganese Steel, Ni-Hard, Chrome-moly, or other similar materials may be of the step type, block type, wave type, or the two-piece plate and lifter construction. These are illustrated on the right. During the past years of building ball Mills various other shapes of liners have been tried, such as the pocket type, spiral liners, etc.; in most cases it is found that these special shapes and designs are not justifiable from the standpoint of economics. They involve additional costs which are not generally recovered from an increased efficiency in milling operation.

Lorain Shell Liners consist of high carbon rolled steel plates accurately formed to the mill shell radius. These are held in place by rolled alloy steel heat treated lift bars. This type liner is carefully engineered for the specific grinding application. Variations in lift bar design and liner plate thickness provide this flexibility of design for application.

All shell liners designed for ball mill operations are of such size and shape that they will easily pass through the manhole opening to facilitate relining operations. In rod mill work the design is such that they will easily pass through the large ball open end discharge trunnion.

Where cast liners are used, and especially in rod mill applications, we furnish rubber shell liner backing to help cushion the impact effect of the media within the mill and prevent pulp racing. With the Lorain type of liner such shell liner backing is not required. For special applications where severe corrosive conditions exist a shell liner of special alloys can be furnished and also the interior surface of the shell can be treated to protect such parts from the corrosive conditions.

Head liners are of the segmental type constructed of Manganese Steel, Chrome molybdenum, or Ni-Hard and are designed to pass easily through the manhole opening or discharge opening in the case of rod mills. For ball mill work ribs are cast with the feed head liners to deflect the ball mass and minimize wear on the headliner itself.

Where cast liners are used shell liner bolts and head liner bolts are made of forged steel with an oval head to prevent turning and loosening within the liners. These are held in place with two hex nuts and a cut washer. For wet grinding applications special waterproof washers can be furnished.

Theeffect of liner design upon mill performance appears to have received little attention. Clearly, the main function of the liner is to form a removable surface to the null body, which may be replaced when seriously worn.

It is also clear however, that the metal plates which serve this purpose may have a surface which ranges from smooth in one which carries an intricate pattern of raised bars or sunken depressions. The merits of the various types do not appear, however, to have been studied.

where smooth liners are those which have projections insufficient to give appreciable keying between the liner and the ball charge, whilst lifter liners are those which are so heavily ribbed as to give rise to appreciable interlocking between the balls and the liners.

Various common types of liners are illustrated in Fig. 6.12. Although these liners have various patterns of projections, or depressions, to give an amount of interaction between the liner and the grinding medium, it would be expected that wear would round the edges. It is doubtful whether, after some time in service, the performance of a mill with these liners differs appreciably from that of a mill with a smooth surface. Liners furnished with heavy lifter bars are also sometimes used and in such a case the locking of the ball charge to the shell must be very effective. Nevertheless, although a few vague general statements to the effect that a lifter mill gives a product with different size characteristics to that of a smooth mill have appeared, the point does not appear to have been widely investigated. It is probable, however, that, on the grounds of differences in the size characteristics of the products, there exists no sound reason for the use of lifters in preference to the normal smooth liners.

It is possible that, when a material with a low coefficient of friction is milled, the charge might slip on a smooth mill shell, with consequent loss of grinding capacity, and in such a case the use of lifter bars might well be the solution. It has also been suggested by one of the authors, Rose, that the use of lifter bars might eliminate the surging of the charge sometimes encountered in mill operation.

An entirely different conception of the duty of the mill liner underlies the design of the studded liner developed by Usines Emile Henricot of Count St. Etienne. These liners, illustrated in Fig. 6.12 and Fig. 6.13, consist of comparatively thin plate liners with uniformly spaced studs on the working surface; these studs being integral with the plate. Provided the spaces between the studs are not allowed to become choked with tramp-iron, etc., the studs furnish a good key between the shell and the charge which, it is claimed, leads to a greater power consumption and to improved grinding. Furthermore it would appear that the studs impose a definite geometrical arrangement in the outer layer of balls which, in turn, brings about a closer packing, throughout the ball mass, than obtains with conventional types of liner. This effect would also lead to improved performance. Evidence of this effect of the studs upon the packing of the charge appears in Fig. 6.13b, for the balls are clearly seen to lie in rows in the mill instead of in completely random array.

An incidental merit claimed for these liners is that the high bearing pressure between the balls and the studs of the liners leads to work hardening of the studs; with a consequential reduction of the rate of metal wear.

The Henricot liners, which have been discussed in a paper by Belwinkel, appear to be the only attempt so far made to influence the grinding characteristics of a mill by means of correctly designed liners. It would therefore appear that there is some room for development in this direction.

qiming machinery | wear parts for mining, quarrying & cement industry

qiming machinery | wear parts for mining, quarrying & cement industry

Qiming Machinery is the leading manganese steel, chromium steel, alloy steel, and heat-resisting steel manufacturer in China. We manufacture replacement wear part castings for impact, abrasion, and high heat applications in mining, crushing, grinding, and shredding, for industrial clients worldwide. No matter which wear parts you are interested in, send us the drawings or sample products, you will get the best products and professional suggestions. Know more+

Qiming Machinery manufactures shredder wear parts, crusher wear parts, mill liners, TIC inserts wear parts, apron feeder pans, and other industries wear parts for ore and aggregate crushers, metal and waste shredders, coal-fired power plants, cement industry, and custom application.

Qiming Machinery manufactures AG mill liner, SAG mill liner, ball mill liner, roll mill liner, and other types of mill liners for all popular brands. Material includes Cr-Mo, manganese, chrome, Ni-hard, and other steel.

Our steel casting foundry services include manganese steel casting, chromium steel casting, alloy steel casting, and carbon steel casting. Casting products of our steel casting foundry span across many industries. On the other hand, customized materials also can be manufactured after checked with our professional engineers.

Qiming Machinery manufactures ASTM A128 standard manganese steel wear parts over 12,000 tons per year, which products include cone crusher liners, jaw crusher liners, mill liner, apron feeder pans, hammer mill hammer, and other wear parts.

Qiming Machinery manufactures ASTM A532M standard chromium steel wear parts over 4,000 tons per year, which products include impact crusher blow bars, impact plates, feed tube, VSI wear parts, mill liners, distributor plate, and other wear parts.

As an alloy steel casting foundry, Qiming Machinery specialized in manufacturing low-alloy steel and high-alloy steel parts. Material includes Cr-Mo alloy steel, 30CrNiMo alloy steel, heat-resistant alloy steel. Products include alloy mill liners, alloy hammer, heat-resistant liners

Qiming Machinery has had cooperation with casting foundries to offer carbon steel (ZG250-700, ZG20SiMn, G20Mn5, ASTM A148, ASTM A488, ASTM A781, ASTM A802) wear parts, which include cone crusher shell, jaw crusher flywheel, pitman, adjustment ring, and other parts.

We have a customer from Australia, who runs MVP450 cone crusher to crush hard stone. However, the original wear parts just can work for around 7 days. This customer wants to prolong this mantle and concave span life. After visiting our foundry, this customer wants us to manufacture TIC insert MVP450 mantle and concave to

Qiming Machinery is a professional cone crusher liner manufacture in China. We had exported more than 12,000 tons of cone crusher liners for our customers. Recently, we get a trail order from Serbia to test our Mn18Cr2 HP300 cone crusher mantle and concave. About the feedback, please check the following communication message: T The messages

We have a Philippines customer who has four crushing lines to crush hard stone. There are 1 set HPT300 crushing lines, 1 set PEW760 crushing line, 1 set HP200 crushing line, and 1 set HP300 crushing line. They had tested many foundries crusher wear parts, however, no products have a long working life. From April

Qiming Machinery is the leading manganese steel, chromium steel, alloy steel, and heat-resisting steel manufacturer in China. We manufacture crusher wear parts, shredder wear parts, mill liners, apron feeder pans, and other wear parts for customers.

sinco crusher parts, crusher spare parts, crusher wearing parts

sinco crusher parts, crusher spare parts, crusher wearing parts

Sinco Mining Machinery Manufacturing Co., Ltd. is the leading wearing spare parts manufacturers in China. We produce wear-resistant, high temperature-resistant, corrosion-resistant metal casting with the annual production capacity of over 15,000 tons. Ourcastingfoundry located in Xinyu City, Jiangxi Province, 3hous by high speed train from Shanghai or Canton. With workshop 43,000 square meter and 200 skilled workers, we have 2 production linesResin sand casting production liner and lost foam casting production line.All products are designed and manufactured as per ISO9001:2008 quality system standard. Our products are mainly used inmining, metal recycling, cement machinery and other industries.

We produce wear-resistant, high temperature-resistant, corrosion-resistant metal casting with the annual production capacity of over 15,000 tons. Our products are mainly used in mining, metal recycling, cement machinery and other industries.

contact us | qiming machinery

contact us | qiming machinery

Qiming Machinery is the leading manganese steel, chromium steel, alloy steel, and heat-resisting steel manufacturer in China. We manufacture crusher wear parts, shredder wear parts, mill liners, apron feeder pans, and other wear parts for customers.

manganese steel, chrome steel , alloy steel foundry | qiming casting

manganese steel, chrome steel , alloy steel foundry | qiming casting

Qiming Casting is a dynamically growing company with many years of experience in production and supply Crusher Wear Parts,Shredder Wear Parts,Mill Liners,Apron Feeder Pans,Electric Rope Shovel Parts, andCrusher Spare Parts. We supply wear parts to the USA, Canada, Europe, Australia, Africa, etc.

Qiming Casting designs and manufactures world-class wear part solutions that last longer than OEM parts. Using the latest technology, we design and cast our products from the best quality alloys available, and use custom heat treatments to ensure the durability of our parts. Our huge product range, customer service excellence, and our ability to deliver on time, every time is the result of 30+ years of operation and industry-based knowledge we know what you need, so we deliver it.

Qiming Casting specializes in manufacturing crusher wear parts, which include jaw crusher wear parts, cone crusher wear parts, hammer mill wear parts, gyratory crusher wear parts, VSI crusher wear parts, impact crusher wear parts.

Qiming Casting supplies all kinds of brands of crusher spare parts, which include jaw crusher spare parts, cone crusher spare parts, gyratory crusher spare parts, VSI crusher spare parts, impact crusher spare parts and other crusher spare parts.

Qiming Casting manufactures ASTM A128 standard manganese steel wear parts for quarrying, mining, and cement wear parts, which products include cone crusher liners, jaw crusher liners, mill liner, apron feeder pans, hammer mill hammer, and others.

Qiming Casting manufactures ASTM A532M standard chromium steel wear parts for quarrying, mining, and cement wear parts, which products include impact crusher blow bars, impact plates, feed tube, VSI wear parts, mill liners, distributor plate, and other wear parts.

Qiming Casting specialized in manufacturing low-alloy steel and high-alloy steel parts. Material includes Cr-Mo alloy steel, 30CrNiMo alloy steel, heat-resistant alloy steel. Products include alloy mill liners, alloy hammer, heat-resistant liners, and other alloy steel liners.

Qiming Casting has a rich experience in cast manganese steel, chromium steel, and alloy steel wear parts for over 30 years. There are more than 12000 tons of wear parts are sent to European, North America, South America, and Australia markets.

Based on rich experience, our engineers also help our customers to design suitable material for different working conditions. On the other hand, Qiming Castings engineers had invented new materials to prolong wear parts span life, such as TIC inserts wear parts, alloy steel crusher liner

Our company has two water glass sand production lines, a V-method casting production lines, an EPC production line, a machine shop; 2 sets 5T electric furnace, 2 sets 3T intermediate frequency electric furnace, 2 sets 1T intermediate frequency electric furnace, 5 sets heat treatment furnace trolley,2000 CBM heat treatment pool, The maximum casting weight:12 tons, Registered capital: Fifteen million dollars, The annual production capacity: 12,000 tons

Although there are only 168 workers in Qiming Casting, however, there are 8 rich experience foundry engineers and 10 quality control personnel. The high percentage of engineers helps us to keep a high-quality standard.

Qiming Casting is one of the largest manganese steel, chromium steel, and alloy steel foundry in China. Products include crusher wear parts, Crusher spare parts, mill liners, shredder wear parts, apron feeder pans, and electric rope shovel parts.

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