CVB2060 Cardan Shaft Assembly for CVB Series vibrating screen Mining Screen Sorting Equipment
Product Description
The modular vibrating mechanism is featured in the CVB Screen. This innovative feature is a real cartridge design that maximizes uptime and ease of maintenance. It eliminates timely servicing and replacement of bearings and other components common to most vibrating equipment. The high bearing life offered with four bearings per shaft line allows for a single drive system on most screens that is opposed to the traditional dual-shaft, four bearing screens.
The Modular Vibrator (MV) is a real cartridge that is designed to be removed easily and safely with everyday tools. Its
advanced technology creates a no cross contamination environment, so only the damaged unit needs to be replaced.
MV Vibrator: MV1 MV2 MV3 MV4
Impact Crusher Wear Parts Features.
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Permanganese steel has good toughness, at the same time under strong impact and large pressure, will produce processing hardening, thereby improving the resistance of permanganese steel Grinding. With the development of railway, metallurgy, mining and other industries, the performance of wear-resistant materials put forward higher requirements, at the same time the need for wear-resistant materials The increasing demand provides impetus for the development of wear-resistant materials. However, under certain operating conditions, the wear resistance of permanganese steel is not high. |
Permanganese steel substrate tissue
Figure 1 is a permanganese steel substrate tissue, as can be seen from Figure 1a: Under the new heat treatment, there is no precipitation along the crystal carbide. As can be seen from Figure 2b: Raw heat treatment
Under, carbide not only precipitates along the crystal, but also has a large number of carbides in the crystal. Between 400 and 550 degrees C is the temperature zone where carbides are precipitated and grown.
In between, the primary heat treatment process in this temperature range insulation 1 h, so that a large number of carbides precipitated.
Different heat treatment process substrate impact breaks
Figure 2a is a broken shape with a impact toughness value of 190 J/cm2, as can be seen from Figure 2a: "Under the new heat treatment process, there are a large number of ligaments in the impact break profile, which is the reason for the high impact toughness value." Figure 2b is a broken profile with an impact toughness value of 84 J/cm2, from Figure 2b
It can be seen that: under the raw heat treatment process, the severed shape is the quasi-dissociation of the severed shape, so the impact toughness value is lower.
Substrate carbide
Figure 3 is the analysis of carbon diffusion in the crystal under the new process. As can be seen from the results: dot block precipitated carbide as Fe, Cr, Mn compound carbide. This carbide, dispersed on the substrate, enhances the base's ability to resist abrasive wear. Carbonization began to precipitate in Auschwitz
The temperature of the material is 125 degrees C, but at this temperature the amount of carbide is very small, in order to
increase the amount of carbide in the dispersion of the substrate, need Increase the aging temperature, but more than 450 degrees C carbide will appear crystal boundary continuous mesh distribution, there will also be large carbide inside the crystal; New heat treatment
The process is time-sensitive at 350 degrees C, which maintains the high toughness of the substrate while improving the wear resistance of the substrate.
The combination of ceramic blocks and per manganese steel substrates and mechanism
The combination of ceramic blocks and substrates affects the life of the material. The interface of the material is analyzed in the gold phase.
The binding of ceramic blocks to permanganese steel is observed through a scanning electron mirror, as shown in Figure 4. Figure 4a High manganese steel and ceramic blocks under the new process.
The combination is good, and the substrate close to the ceramic block is free of micro-cracks. The per manganese steel substrate tissue close to the ceramic block is fine, and the carbide dispersion is distributed. Figure 4b Under the old process, the combination of permanganese steel and ceramic blocks is poor, and the substrate close to the ceramic block has micro-cracks. The per manganese steel substrate is large in tissue and carbon.
Dispersion distribution of chemicals to reduce binding strength; As can be seen from Figure 4c: The ceramic and substrate of the binding site are interlaced, and ceramic particles and substrates can be seen in the body is embedded in the permanganese steel substrate.
To better examine the binding status of the combined material interface, Figure 5 shows the EDS line scan photo at the junction, from Figure 5 It can be seen that: metal ceramics and permanganese steel substrates combine very well, and permanganese steel and metal ceramic substrates melt into one. Fe element of the substrate material Content, from substrate to metal ceramics, in the interface showed a decreasing trend; The content of Ti elements, from metal ceramics to substrates, decreases significantly, and the Ti content at the interface is lower than that of metal ceramics far from the interface the Ti content, but the diffusion distance of the Ti element Shorter. The diffusion of these two elements is thermal diffusion Results.
The heat of the metal solution of the permanganese steel substrate makes pottery Porcelain blocks are placed for quite some time after pouring at high temperatures, and the effect of temperature on the speed of diffusion shows Exponential changes, which greatly increases the diffusion rate High, the formation of a better metallurgical combination.
Which Model We Have?
Mets-o: CVB
NP1313 NP1415 NP1620 NP2023 NP1110 NP1520 NP13 NP15
Sandv-ik:CI121 CI123 CI124 CI125 CI221 CI231 CI222 CI232 CI223 CI233 CI224 CI234 CI225 CI235
Tere-x:I-100 I-100RS I-120 I-120RS I-140 I-140RS
Tel-smith:HS-2421 HS-2430 HS-3036 HS3048 HS-4230 HS5252 HS5263
Tri-o:APP4354 APP5148 APP5560 APP6384 APP8084 APS3030 APS4034 APS4054 APS5148 APS5160 APS6084
Main Features
1) Name: Concave & Mantle
2) Material : High Manganese / Carbon Steel / Low alloy steel
3) Use: Replacement parts for Cone crusher
4) Heat Treatment: Quenching, Tempering, Annealing, Nomoralizing ...
5) Quality Assurance Report: Chemical Composition Report, Mechanical Properties Report, MT Report, UT
Report, Heat Treatment Report, Dimensions Report
Packing and Shipping
Our Services
FAQ
1. Q: Are you a trading company or manufacturer?
A: We a steel casting foundry, has been specializing in this industry for more than 3 decades years. We equip with complete facilities, all production process from manufacturing to testing is finished in our own foundry.
2. Q: How long is your delivery time?
A:Our lead time is generally 30 days for existing patterns, 55 days for new patterns. Exact time to be finalized on receiving of finalized order.
3. Q:What kind of products do you make?
A: We specialize in mining machinery parts, excavator attachments such as jaw plates, concaves, mantles, bowl liners, mill liners, shredder hammers, grates, top gids, caps, bucket teeth and more.
4. Q:Do you offer the supporting service for technology and engineering?
A: Yes. our engineering team can measure products at mining site, they also can make more reasonable design for the crusher parts.
5. Q:How do you deal with quality problem?
A: we adhere to "Be honest people create perfect product" development principle since our foundation.Every single product is strictly checked and well packed before delivery. If something goes wrong when you use our products,please send us photos of the wear part and the machine. This will help us to identify where the problem is. If it is a quality problem, we will compensate you and do something correspondingly to avoid the same problem next time. If the problem is caused by misuse,we will provide our technical advice for your reference.
6. Q: what is the best route to come to visting your plant?
A: Shanghai to Nantong station around one hour by high speed train. We will pick you up at the high speed train station.