During the flotation process, selected tailings or sweeping foam products are commonly referred to as medium mines. Generally, the mineral grade is lower than the concentrate and higher than the original ore, and its floatability is lower than that of the concentrate and higher than the tailings. For the treatment of medium mines, we must first analyze the situation of the continuous organisms in the middle ore. It is necessary to study the floatability of the mines and the requirements for the quality of the concentrates before we can determine the treatment methods of the mines. For the proper treatment of medium ore, there are four common methods for improving the mineral processing index. The more common methods are as follows. (1) Returning the middle mine to the appropriate location in front of the flotation. If the useful minerals of the medium mine have been substantially dissociated, that is, return it to the appropriate location in the front of the flotation. There are two methods. 1 Step back as shown in Figure 6-27, the sequential return, that is, the later-derived mine will return to the previous operation. When the useful minerals floatability of poor returns in order to reduce re-selected metal loss, ensure recovery, the number of re-election in the mine should be reduced, in sequential mining process is appropriate to return as well. 2 Centralized return As shown in Figure 6-28, all the mines will be merged together to return to the front of the flotation. When the medium ore mine has good buoyancy and the quality of the concentrate is high, the centralized return of the medium mine is appropriate. Due to the selection of the mine, the fine minerals can be improved. (2) When the middle ore returns to the grinding and grading cycle, it is better to return to the grinding and grading cycle, as shown in Figure 6-29. If the mine contains some ore particles separated from the partially monomer, it can be returned to the classification operation. In order to increase the mechanical scrub on the surface of the mine, it can also be returned to the mill. (3) The separate treatment of medium ore is complicated for the nature of medium ore, such as complex inlay, the difference between floatability and ore minerality, and when there is more mud, if the mine returns to the original flotation cycle, it is bound to Deteriorating the entire flotation process. In this case, the medium ore should be treated separately, as shown in Figure 6-30. (4) Other methods of treatment If the above methods are used to treat the middle ore, no good results can be obtained. Chemical treatment can be considered, but the experimental work should be carried out on the medium mine. According to the test results, the scheme should be comprehensive. Comparing technical and economic indicators, it is necessary to obtain a value that is technically reasonable and economically cost-effective. In addition, it is also considered that it will not be processed and it is possible to sell low-grade concentrates. In short, in the process of flotation, it is necessary to carefully study the treatment method of the middle mine, and choose a reasonable plan, which is of great significance for improving the mineral processing index. As a general rule, the mine should be returned to work of similar grade. If the concentration of the mine is too low or the drug content is too large. As a result, the normality of the near-back operation is affected, and it is necessary to return after dehydration and de-drug treatment. Polyurethane System For Shock Absorber
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Excellent hand feel and elasticity,good abrasion resistance and slip resistance,high strength adhesive strength,low density and good dimensional stability.
A Pu system for shoe soles refers to the use of polyurethane (PU) material in the manufacturing of shoe soles. PU is a versatile and durable material that offers several advantages for shoe soles. Acrylic Polyurethane Resin,Pu For Shock Absorber,Marine Fender Pu Chemical,Shoes Making Material XUCHUAN CHEMICAL(SUZHOU) CO., LTD , https://www.xuchuanpu.com
Here are some key features and benefits of using a PU system for shoe soles:
1. Cushioning: PU provides excellent cushioning and shock absorption properties, making it ideal for footwear that requires high levels of comfort and impact protection.
2. Lightweight: PU is a lightweight material, which helps reduce the overall weight of the shoe, making it more comfortable to wear and reducing fatigue during extended use.
3. Flexibility: PU offers good flexibility, allowing the shoe sole to bend and flex with the natural movement of the foot. This enhances comfort and prevents stiffness or discomfort during walking or running.
4. Durability: PU is highly durable and resistant to wear and tear, making it suitable for long-lasting shoe soles. It can withstand repeated use and exposure to various environmental conditions without losing its structural integrity.
5. Slip resistance: PU can be formulated with specific additives to enhance its slip resistance properties, providing better traction and grip on different surfaces. This is especially important for safety footwear or shoes used in slippery conditions.
6. Design versatility: PU can be molded into various shapes and designs, allowing for greater design flexibility and customization options for shoe soles. This enables manufacturers to create unique and visually appealing footwear.
7. Water resistance: PU can be made water-resistant or waterproof, which helps protect the shoe sole and the foot from moisture, rain, or other wet conditions.
Overall, a PU system for shoe soles offers a combination of comfort, durability, flexibility, and design versatility, making it a popular choice for footwear manufacturers and consumers alike.