High-quality bushing brass and bearing bush, made from high-strength brass alloys, are centrifugally cast and finely machined to ensure reliable performance. Our products include self-lubricating bearings and graphite bearings designed for low-speed rotating applications in mechanical spindles. As a reliable supplier of precision bushing brass and bearing bush, we are committed to providing customized solutions to industries requiring high quality oilless bushings, such as mining, cement, marine and chemical industries.
One of the key features of bearing bush is its self-lubricating capability. This ensures smooth, frictionless running of machinery, reducing mechanical wear and minimizing downtime. In addition, our self - lubricating bearings perform even better in applications that require lower speeds and higher load carrying capacity.
To meet the stringent accuracy requirements of mechanical spindles, our bearing bush undergoes strict quality control measures. Each component is machined with high precision to ensure a perfect fit and optimal performance.
As a leading supplier in the industry, we understand the unique challenges faced by cement plants and other industries that rely on self - lubricating bearings. That's why we offer solutions tailored to your specific application needs. Whether you need a bearing bush for mining operations, cement production, marine applications or chemical plants, we have the expertise to provide the right solution.
Partnering with us means gaining access to a wide range of high-quality brass bearing bushes and bushing brass products. dedicated to providing excellent customer service and technical support, ensuring that you receive the best products and guidance to optimize your machinery's performance.
Our company is your reliable partner when it comes to sourcing high-quality brass bearing bushes and bushing brass for all types of machinery. With our commitment to precision, durability, and customized solutions, we can meet the needs of your industry and help you achieve reliable and efficient operations. Contact us today to learn more about our products and how we can help you.
Brass Oilless Bushings play a very important role in mechanical engineering. Their manufacture is a multi-stage precision machining process.
Oilless Bushings are precision cast from high quality alloys to form strong, high strength brass blanks. These blanks undergo an initial turning operation, during which the outer contour of the bushings begins to take shape.
After contouring, they are prepared for the graphite liner. The first step is CNC drilling of the Oilless Bushings blanks. Performed on a CNC machine, this step is critical as the evenly spaced graphite inlay holes will ensure the even distribution of the required solid lubricant.
Once the graphite inlay holes have been completed, the graphite is inserted into the holes, but the graphite requires a curing period. This curing period ensures that the graphite is firmly bonded into the brass bushings. Once cured, the Oilless Bushings are precision turned to their final assembly dimensions. This step is critical to achieving the accuracy required for seamless assembly with the machine spindle.
Typically, Oilless Bushings are designed with internal chip evacuation grooves. In order to machine the chip channel, the Oilless Bushings must be cut in half by wire cutting. Prior to this, the Oilless Bushings should be coded so that they fit together exactly after cutting.
Finally, after all the manufacturing steps, the surfaces were cleaned and the Oilless Bushings were wrapped in bubble wrap and packed in customized wooden crates to protect them from shock.
CAFU is a specialized supplier of a wide range of Oilless Bushings. We provide professional customization service for high quality Oilless Bushings. If you have any requirements, please feel free to contact us.
With years of experience in supplying spare parts for bulk material handling equipment, CAFU's round steel link chains provide a reliable steel link chain solution for bulk material conveyors such as bucket elevators in cement plants.
At CAFU Machinery, we offer a unique range of round steel link chains and their accessories, which include but are not limited to sprockets, connectors, chain shackles and more.
Over the years, we have made a name for ourselves in the bulk material handling equipment aftermarket, presenting customers like cement plants with a wide selection of highly wear-resistant round steel link chains, all of which are manufactured using innovative chain process technology with a comprehensive product portfolio. High-quality chain shackles and connectors are tailor-made for bulk material handling systems and are suitable for cement bucket elevators, bulk material conveyors, slurry scrapers, asphalt mixing plants and quarry operations.
Our round steel chains for bulk material conveyors are engineered for durability, longevity and consistent performance in a wide range of material handling tasks. Their advantages are especially prominent in scenarios involving large loads and harsh operating environments. Whether conveying corrosive materials, operating at extreme temperatures or handling highly abrasive materials, these steel link chains have become the preferred choice, offering the following advantages:
• Excellent wear resistance: specially designed to withstand constant friction and minimize wear over time.
• Self-cleaning design: prevents debris build-up, ensuring smooth operation and reducing downtime.
• Easy to monitor: Simple inspection process quickly identifies potential problems.
• Particle size adaptability: easily copes with different sizes of materials to optimize operational performance.
All aspects of the production of round steel link chains, from welding and heat treatment to quality inspection, are carried out in-house. We use state-of-the-art resistance welding technology, which is recognized as the best process for manufacturing such components.
A state-of-the-art heat treatment department with electronically controlled kilns and sophisticated computerized analyzers is the key to our quality assurance. Meanwhile, our testing facilities undergo rigorous and regular testing, including multiple tensile testing machines with a maximum pulling force of 4,800KN.
Relying on advanced computer-aided design and specialized software, we ensure that each component is designed with precision and safety in mind. Our testing center regularly carries out exhaustive metallographic analyses, as well as mechanical tests for traction, fatigue resistance, elasticity, hardness and microhardness.
For many years, our round steel link chains and accessories have been used in the cement production, mining, gypsum processing and power generation industries and have become a reliable partner for these users.
Common Diameter of Round Steel Chains
• Φ13mm: This size is generally suitable for small or low-load link chain bucket elevators. It is commonly utilized when the conveying volume is small and the materials have a low density.
• Φ14mm: It can be employed for conveying ordinary powdery and granular materials. This diameter offers sufficient strength for such common industrial substances.
• Φ18mm: Appropriate for medium conveying capacities and material densities, it is capable of lifting materials like cement and coal, which are frequently handled in construction and energy industries.
• Φ20mm: When there is a need to convey large quantities of high-density materials, the Φ20mm chain is a viable option. It can withstand the heavier loads associated with such operations.
• Φ22mm: This diameter is used to meet the requirements of high conveying capacities and high material densities. It ensures reliable transportation under more demanding conditions.
• Φ26 - 42mm: Generally used in large bucket elevators (TH630 and above), these chains can bear larger loads. They are suitable for large-scale production, such as in cement factories, for efficiently conveying lumpy materials or large amounts of powdered substances.
Pitch of Round Steel Chains for Bucket Elevator
In cement plant, common pitch values include 56mm, 70mm, 80mm, 91mm, 100mm, 101mm, 105mm, 120mm, and 126mm. A larger pitch of the bucket elevator chain can provide stronger traction. As a result, it is suitable for conveying materials that are both dense and have large particle sizes, like the large lump ores found in cement production.
Most Frequently Used Chain End Specifications
The number of links is typically odd. Usually, the chain ends adopt 5 - or 7 - link chains. There are also other odd-numbered chain links, such as 29, 47, 79, and 83. When ordering replacement bucket elevator chains, it is essential to check the number of chain links of the original equipment. Otherwise, it may cause a mismatch with the machine, leading to difficulties for the maintenance team. The detailed procurement parameters must be consistent with those provided by the maintenance team.
Order Your Bucket Elevator Round Steel Chain by Providing the Correct Ordering Parameters
The ordering parameters for bucket elevator chains are expressed as diameter x pitch x number of links, for example, D26xP91x7 links. Additionally, it is advisable to provide the minimum breaking force parameter rating of the original machinery chain. This information helps in selecting a replacement chain that can endure the same operational stresses.
Reduce Your Operating Costs by Choosing a Quality Partner
CAFU Machinery is a high-quality spare parts supplier for bucket elevator chains. By choosing CAFU, you can save approximately 10 - 20% on round steel chain purchase costs. Our carburized wear-resistant round steel chains are suitable for bucket elevators with various production outputs. These chains can be customized according to different standards and sizes to perfectly match your bucket elevator. Please feel free to contact us in advance, according to your maintenance schedule, to customize the relevant chains and spare parts.
As a powerful traction chain in mining operation or a sprocket drive chain in bucket elevator, the quality of round steel chain is directly related to the efficiency and safety of the whole production system, and the quality of round steel chain supplied by CAFU is guaranteed by the following excellent production process, which ensures that each chain ring has absolute performance and quality, and guarantees the normal operation of the conveying equipment. Here's a detailed breakdown of our production process:
1. Premium Alloy Material Selection
The choice of alloy materials is meticulously determined by the specific requirements of diverse applications. In the demanding mining and cement industries, where durability and resistance to heavy wear and tear are essential, we employ high-strength alloy steel. For applications where corrosion resistance is a top priority, such as in certain chemical processing or marine environments, we opt for high-quality stainless steel. In the case of slag conveyors, which endure extreme abrasion, we select high-strength alloy steel and enhance its surface hardness through a carburizing treatment process. This tailored material selection lays a solid foundation for the chain's excellent performance.
2. Precise Material Cutting for Accurate Chain Pitch
Accurate material cutting is of utmost importance to achieve the precise chain pitch. After carefully choosing the appropriate alloy material, we utilize specialized cutting equipment that operates under strict control. This equipment precisely cuts the alloy material into the exact length stipulated by the design, ensuring the consistency and accuracy of each chain link. This precision is vital for the smooth operation and proper meshing of the chain within the equipment.
3. Press or Forging Forming
We employ a range of tonnage presses and custom-designed molds to transform round steel or forged links of equal lengths into chains with the desired number of links. This forming process demands high precision and technical expertise to ensure that the chain structure is strong, with each link fitting snugly together. Whether through press forming, which offers efficiency and cost-effectiveness for standard chain production, or forging forming, which imparts enhanced strength and durability for specialized applications, we select the most suitable method based on the specific needs of the chain.
4. Advanced Chain Link Welding
To achieve robust and reliable connections between chain links, we utilize special welding wire and state-of-the-art automatic welding equipment. Our welding process is carefully calibrated to ensure the integrity of each weld. The special wire is chosen for its compatibility with the alloy material, ensuring strong and durable joints. The advanced automatic welding equipment not only improves welding efficiency but also minimizes the potential for human error, resulting in consistently high-quality welds that can withstand the stresses and strains of heavy-duty applications.
5. Optimal Heat Treatment
We employ medium-frequency furnaces to perform a series of heat treatment processes, including quenching and tempering, on the round steel chains. This heat treatment regimen is crucial for enhancing the mechanical properties of the chains. Quenching rapidly cools the metal to increase its hardness, while tempering follows to relieve internal stresses and improve toughness. Through this carefully controlled combination of heat treatments, the round steel chains are endowed with the ideal balance of strength, hardness, and toughness, enabling them to perform optimally in various harsh working conditions.
6. Tailored Surface Treatment
Depending on the specific user requirements and the intended usage environments, we offer a variety of surface treatment options such as electroplating, thermal spraying, and phosphating. Electroplating can provide a decorative finish while also enhancing corrosion resistance. Thermal spraying, especially with ceramic or metal coatings, offers excellent abrasion resistance and can protect the chain from harsh wear in abrasive environments. Phosphating is useful for improving lubrication and corrosion protection, particularly for chains that operate in wet or corrosive conditions. These surface treatments are carefully selected and applied to extend the service life of the chains and meet the diverse needs of our customers.
7. Rigorous Quality Inspection
Our quality control process is comprehensive and uncompromising. We conduct precise measurements of chain link size, hardness, and mechanical properties. Using advanced measuring instruments and standardized testing procedures, we ensure that each chain meets or exceeds the industry standards. Any chain that fails to meet our strict quality criteria is immediately rejected, guaranteeing that only top-quality products reach our customers. This rigorous inspection process not only safeguards the performance of our chains but also contributes to reducing overall equipment maintenance costs and minimizing downtime for our customers.
By choosing CAFU's round steel chain, you will be opting for round steel chain that undergo advanced production processes and stringent quality control measures. This choice will not only ensure optimal performance but also contribute to a reduction in overall equipment maintenance costs and minimize downtime.
Should you require any further information or have any questions regarding our products, please do not hesitate to contact CAFU's service team. We are always ready to discuss the customization of your wear parts to meet your unique needs.
High-quality cement plant spare parts are one of the key elements for improving the production efficiency and reliability of cement plants.
In the complex and high-intensity industrial field of cement production, the stable operation of equipment plays a decisive role in ensuring production efficiency and product quality. And cement plant machinery spare parts, as an important part of the equipment in cement plants, their quality, compatibility, and the timeliness of supply are directly related to whether the production line can operate continuously and efficiently.
CAFU, as a high-quality supplier of cement plant spares, has long focused on the supply and customized services of castings and wearing parts for cement plants, including mill liners, heat resistant castings, round steel chain and chain shackle for bucket elevator, wear plate, and customized machined parts and other key spare parts, providing high-quality products and services for the replacement of cement plant wear parts and offering stable value returns to the stakeholders of cement plants.
I. Mill Liners
There are various types of mills, and as the core equipment in cement production, they mainly include vertical cement mills and ball mills. Both are responsible for grinding raw materials into fine powder. Mill liners bear huge impact forces, friction, and wear from materials during this process. High-quality mill liners should possess high strength, high wear resistance, and good impact resistance.
CAFU's foundry has the production and processing capabilities for various formulations and large-sized cement mill castings. Through provided drawings, we can customize a variety of high-quality wearing parts for cement machinery, including mill liners and crusher liners.
II. Heat Resistant Castings
The high-temperature processes in cement production, such as the kiln system, impose strict requirements on heat resistant castings. Heat resistant castings need to maintain stable mechanical and chemical properties for a long time in a high-temperature environment to prevent deformation, cracking, and oxidation.
CAFU's customized service for heat resistant castings aims to solve users' troubles in the procurement process, such as high costs caused by decentralized procurement, uncontrollable quality, and delivery delays.
III. Round Steel Chain and Chain Shackle for Bucket Elevator
The bucket elevator undertakes the important task of vertically conveying materials in cement production. Its chains and chain shackles, as key transmission parts, bear huge pulling forces and impacts from materials.
As a reliable supplier that has long served the replacement of spare parts in cement plants, CAFU's large-scale supply volume and advanced chain factory will greatly reduce the total cost of ownership of cement plant parts and create greater value for users.
IV. Wear Plate
Many equipment in cement plants, such as crushers and feeders, are faced with severe wear from materials. Wear Plate, as a protective layer for this equipment, directly affects the reliability and maintenance cost of the equipment.
CAFU selects high-quality wear-resistant materials and uses a full set of equipment, including laser cutting machines, forming machines, drilling machines, and thread processing machinery, to fully meet users' various customized size requirements.
V. Customized Machined Parts
There are numerous types of equipment in cement plants with different specifications. During the equipment maintenance and upgrading processes, customized machined parts are often needed. The precision and quality of these parts directly affect the repair effect and operation performance of the equipment.
We provide users with customized precision machined parts that exceed their quality expectations.
We focus on assisting our customers in optimizing the supply chain of spare parts for cement plants. Establishing long-term and stable cooperative relationships with high-quality cement plant wear parts suppliers is of vital importance. Choosing suppliers with rich industry experience, reliable product quality, and quick response capabilities can ensure the timely supply of spare parts when needed.
CAFU's 24/7 customized service for cement plant spare parts deeply serves the procurement and maintenance teams of cement plants, providing them with the most valuable products and services
CAFU specializes in customizing high-quality round steel chain links and chain shackles for a wide range of industrial bucket elevator users, such as those in cement plants and power plants. Our aim is to provide replacement solutions that perfectly match your existing bucket elevators, helping your equipment operate efficiently and stably.
Customization Options
• Custom Sizes: We can customize round steel chain links and chain shackles and other customized parts according to standards like DIN 764/766 and DIN 745/5699. These customized parts fully meet all performance indicators. They rely on advanced manufacturing and inspection processes, covering carburizing, heat treatment and tempering, surface treatment, and breaking force testing, ensuring the quality of the products from all aspects.
• Material Selection: In terms of materials, we offer several commonly used and high-quality options, including carbon steel, high-quality alloy steel, and stainless steel. Different materials are suitable for different working conditions. You can choose according to your needs to ensure that the chain links can perform excellently in the corresponding environments.
• Surface Treatment: To further enhance the performance and durability of the chain links, we adopt diversified surface treatment methods such as galvanizing, painting, or phosphating, effectively strengthening their corrosion resistance, wear resistance and other characteristics, enabling them to better cope with complex usage environments.
Advantages of Customization
• Significantly Enhanced Reliability: The round steel chain links and chain shackles we supply have excellent adaptability and can precisely match the specific operating environments and working conditions of bucket elevators. With this advantage, the frequency of failures and downtime can be greatly reduced, effectively enhancing the overall reliability and stability of the equipment, making your production operations smoother and more efficient.
• Effectively Extended Service Life: We carefully select high-quality alloy materials and strictly follow rigorous production processes for manufacturing. This strict control over quality ensures that each chain link has better performance from the source. Such strict quality control makes the round steel chain links and chain shackles more durable during long-term use, thus significantly extending their service life and saving you the costs and efforts of frequently replacing accessories.
• Lower Total Cost of Ownership: It can save you about 15-20% of the purchase cost. On the premise of ensuring the same quality standards, the round steel chain links and chain shackles we provide are highly competitive in price. Compared with your original European-made accessories, the cost is significantly reduced, and the cost-performance ratio is extremely high. Choosing our customized products not only enables you to obtain a high-quality user experience but also effectively controls cost expenditures during long-term operations, maximizing economic benefits.
• Faster Delivery Cycle: Average production lead time is 15-20 days. With the advanced production facilities of the industry-leading chain manufacturing factory, we have a relatively fast delivery cycle, which can shorten your procurement cycle.
By choosing CAFU to customize round steel chain links and chain shackles for you, you will obtain high-quality, cost-effective, and well-matched premium products, safeguarding your industrial production.
The breaking force test is a crucial part in evaluating the quality and performance of round steel chain. It is an indispensable item in the factory inspection process for mining chains, lifting chains, and bucket elevator conveyor chains, and it is also one of the conventional means to test the performance of chain products.
I. Test Purposes
1. Quality Inspection
To determine the maximum tensile force that the round steel chain can withstand, so as to verify whether the chain meets the design requirements and relevant standards.
2. Safety Assessment
To provide data support for the safety factor of the round steel chain in practical applications. In many high-risk industrial application scenarios, such as mining equipment and lifting equipment, understanding the breaking force of the chain helps to determine the appropriate safe working load and ensures the safety of personnel and equipment during operations.
II. Test Equipment
1. Tensile Testing Machine
This is the core equipment for conducting the breaking force test of round steel chains. It can apply tensile force at a stable speed and accurately measure the magnitude of the tensile force. The range of the tensile testing machine needs to be selected according to the specifications and expected breaking force of the chain. Generally, it is required that the maximum tensile capacity of the machine should exceed a certain proportion (for example, 150% - 200%) of the expected breaking force of the chain to ensure that the chain can be fully tested until it breaks.
The tensile testing machine is usually equipped with a high-precision force sensor, which can accurately record the tensile force values and has data recording and analysis functions, facilitating the subsequent viewing and processing of test data.
2. Fixtures
Fixtures are used to fix both ends of the chain. The design of the fixtures should ensure that they can firmly clamp the chain and prevent the chain from slipping out during the test process. For different sizes and types of chains, specially designed fixtures may be required. For example, for round link chains, the fixtures usually have a structure with special-shaped slots that can closely fit the chain links and ensure that the tensile force is evenly distributed on the chain.
III. Preparation of Test Samples
1. Sampling Method
For chains produced in batches, test samples need to be selected according to certain sampling standards. Generally, a random sampling method is adopted, and it is necessary to ensure that the number of sampled samples meets the requirements of relevant standards. For example, in some standards, it is stipulated that for each batch of round steel chains, the sampling proportion shall not be lower than a certain percentage (such as 5% - 10%), and the minimum number of sampled samples shall not be less than the specified number of pieces (such as 3 - 5 pieces).
2. Sample Pretreatment
Before conducting the breaking force test, it is necessary to inspect the sample chains to ensure that there are no obvious defects, such as cracks or deformations. At the same time, the basic information of the chains, such as size, model, and production batch, should be recorded for subsequent analysis and traceability of the test results.
IV. Test Process
1. Installation of Samples
Install the prepared round steel chain samples on the fixtures of the tensile testing machine. Pay attention to ensuring that the installation direction of the chain is correct and that the chain is in a naturally straightened state in the fixtures, avoiding twisting or bending. After clamping the chain, it is necessary to check again whether the fixtures are firm to ensure that the tensile force can be evenly applied to the chain.
2. Setting of Test Parameters
Set appropriate tensile speeds on the tensile testing machine according to the type and test requirements of the chain. Generally, the tensile speed should not be too fast to avoid affecting the accuracy of the test results. For example, for the breaking force test of mining round link chains, the tensile speed is usually set between 10 - 30 mm/min. Meanwhile, the frequency of data acquisition should also be set so that the change process of the breaking force can be accurately recorded.
3. Start of the Test
Start the tensile testing machine and begin to apply tensile force. During the test process, the force sensor of the tensile testing machine will record the magnitude of the tensile force in real time and transmit the data to the computer control system for storage and display. Observe the deformation of the chain under the action of the tensile force. When the chain breaks, the tensile testing machine will automatically stop applying the tensile force and record the maximum tensile force value at this time, which is the breaking force of the chain.
V. Analysis of Test Results
1. Judgment of Breaking Force Values
Compare the measured breaking force value obtained from the test with the design breaking force standard of the chain. If the measured breaking force is greater than or equal to the standard breaking force, it indicates that the strength of the round steel chain meets the requirements; if the measured breaking force is lower than the standard breaking force, further analysis of the reasons is needed, which may be due to problems with the quality of raw materials, defects in the manufacturing process, or improper operation during the test process.
2. Fracture Analysis
Observe and analyze the fracture surface of the round steel chain after it breaks. Different fracture causes will present different characteristics on the fracture surface. For example, if the fracture is caused by material fatigue, fatigue striations may appear on the fracture surface; if the fracture is caused by poor welding quality, pores, slag inclusions and other defects may appear near the weld. Through fracture analysis, a basis can be provided for improving the manufacturing process or quality control measures of the chain.
Wear plate parts are an essential component in a multitude of industries. CAFU Machinery is a leading provider of wear plate solutions, offering premium quality wear plate products to a diverse clientele.
Wear plate parts are employed in a diverse array of applications. Wear plate parts are utilised in a number of sectors, including the cement industry, mining operations and power plants.
Application introduction:
Cement mill core parts, including wear rings, are processed using wear plate 400.
RDF production line spare parts include a shear ring, which is machined from wear plate 400.
Our screen plate for screening machines is made of wear plate 400 and 450.
Our bearing guards for mills are made of wear plate 400.
Our wear-resistant liners are made of wear-resistant plate 400.
Our machined wear plate components fulfil the specific requirements of different applications. We offer high-quality wear plate parts designed to enhance the performance and life of equipment in these industries. Please feel free to contact us for customisation.
In the quarrying, CFP Series apron feeder offers a reliable option. Specially designed for quarry production line upgrades, our apron feeders offer a host of features that set them apart from the competition.
The pans of our apron feeders are made of NM400 wear-resistant material. This not only makes them highly resistant to wear but also able to withstand impacts, ensuring a long service life even in the toughest quarrying environments.
The heavy-duty frame design can handle heavy loads of materials with ease. It provides stability and durability, making it ideal for demanding quarry operations.
The crawler-type operating system is another major advantage. It offers more stable and durable performance. Moreover, it requires no maintenance in the long term, saving you time and money on maintenance costs.
The direct drive system has a compact structure, taking up less space and ensuring efficient power transmission.
We also offer a variety of standard sizes for our apron feeders. There is no need for customization, which means a shorter procurement cycle for you.
Customer feedback from quarry production line users has been outstanding. Our apron feeder have been operating continuously for more than a year without any failures, demonstrating their exceptional reliability.
In conclusion, if you're looking to upgrade your quarry production line, consider our apron feeders. With their wear-resistant materials, heavy-duty design, stable operating system, compact drive system, and a variety of standard sizes, they are the perfect choice for enhancing the efficiency and reliability of your quarry operations.
Portable Apron Feeder for Raw Material Transitioning Application in Cement Plant
In today's fast-paced cement production industry, efficiency and flexibility are essential. Our company's portable apron feeder is designed to address this need.
As a leading company in the design and manufacture of apron feeders, we take pride in offering products that combine advanced design concepts with unparalleled quality and reliability. Our apron feeders are designed with a simple structure that allows for easy installation and maintenance.
Our feeders are used extensively in a variety of industrial contexts, including cement plants, mines, quarries, sand washing plants, construction waste recycling, and many other applications. Our products have been exported to numerous countries and regions, including Europe, Southeast Asia, and South America.
In response to the practical needs of our customers in the cement industry, we have developed a portable model for feeding raw materials in cement plants. This apron feeder also features a robust and long-lasting crawler chain track structure and is equipped with a movable steel structure base for rapid installation.
With a pan width of 1000 - 1200mm, an axle centre distance of 3800 - 4300mm, a production capacity of approximately 250 - 500 TPH, and a hopper volume that can be customised according to requirements (3.2 - 5m³), this model offers great versatility. In the raw material yard of a cement plant, it can be quickly moved to the designated location in conjunction with a movable belt conveyor as needed, significantly enhancing production efficiency.
Thanks to the durable quality of our apron feeders and their strong adaptability to different sites, this new model provides powerful productivity support for the transfer of raw materials in most existing cement plants.
Our portable apron feeder is the reliable and efficient solution to your cement plant's feeding needs.
Wear plate are commonly used cement plant parts in cement plant production lines.
In the world of cement plants and mining operations, having durable and efficient wear plates is crucial. wear plate made of NM series wear plates are a popular choice due to their excellent performance.
NM series wear plates come in thicknesses ranging from 5mm to 80mm. They undergo machining processes such as cutting, drilling, and threading to meet specific requirements. These wear plates are commonly used in various equipment and devices in cement plants, including the main hopper of limestone crusher production lines, impact plates of rear impact crushers, shale crusher production lines, and impact plates of counterattack crushers.
Moreover, NM series wear plates are also frequently used in RDF production line equipment of MSW power plants. With their good wear resistance, they are ideal for equipment maintenance and spare part replacement in cement plants. For instance, in cement mills, the contrarotating ring can be replaced with NM series wear parts, significantly reducing replacement costs compared to parts made using the high-cost HVOF production process. This not only cuts operating costs but also improves the efficiency of cement mill part replacement.
Compared to wear-resistant spare parts for cement plants made using complex production processes, parts made of NM series wear plates or Hardox series offer more advantages in procurement cycle and cost, giving cement plant maintenance departments more options.
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