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Product Details:
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| Place of Origin: | China |
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| Brand Name: | Sanxin |
| Certification: | ISO |
| Model Number: | SX0026-1 |
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Payment & Shipping Terms:
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| Minimum Order Quantity: | 500 pieces |
| Price: | Negotiable |
| Packaging Details: | Safety Packing |
| Delivery Time: | 15~45 Days |
| Payment Terms: | L/C, T/T, Western Union |
| Supply Ability: | 100000pcs/month |
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Detail Information |
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| Type: | Construction Tool Parts,wear Resistant Parts | Material: | 100% Virgin Tungsten Carbide WC+Co |
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| Size: | Customized,OEM Accepted,Customer Requst | Surface: | Finish,rough Grinding,Polished Grinding |
| Grade: | YK05/YK06/YG8/YG20,YG11,etc | Shape: | Spherical,flat-top,cone,Round Or Other,parabolic |
| Service: | OEM & ODM | ||
| Highlight: | ODM Tungsten Carbide Button,OEM Tungsten Carbide Button,Polished Grinding Tungsten Carbide Button |
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Product Description
Wolfram carbide is a perfect material for manufacturing tungsten carbide inserts which are widely used in most harsh and aggressive environments.
Zhuzhou Sanxin Cemented Carbide Manufacturing Co., Ltd provide solutions for challenging operating conditions, such as the task of geology and mining industry.
Premium Tungsten Carbide Material:
Crafted from high-quality tungsten carbide, known for its exceptional hardness and wear resistance, ensuring long-lasting performance in demanding drilling applications.
Precision Engineering:
Each button is meticulously crafted to deliver accurate and consistent drilling results, promoting efficiency and reliability on the job site.
Versatile Application:
Suitable for a variety of drilling tasks in different materials, including rock, concrete, and more, making it a versatile tool for construction, mining, and geological exploration.
Enhanced Performance:
The unique design and material composition of the eccentric wedge button facilitate faster drilling speeds, improved penetration rates, and overall enhanced performance.
Durability and Longevity:
Withstand the rigors of continuous drilling operations, maintaining sharpness and effectiveness over extended periods, reducing downtime and replacement costs.
| 1 | Brazing: | One common method for attaching carbide buttons to drill bits is through brazing. This process involves using a filler metal that has a lower melting point than the carbide and the base material. The carbide buttons are placed in their designated positions on the tool, and then the brazing material is heated until it melts and bonds the carbide to the tool substrate. |
| 2 | Press-Fit: | In the press-fit method, the carbide buttons are precisely manufactured to fit into corresponding cavities or holes on the tool substrate. The buttons are press-fitted into these cavities using hydraulic presses or mechanized equipment, creating a tight and secure bond between the carbide and the tool. |
| 3 | Adhesive Bonding: | Adhesive bonding involves using specialized adhesives to attach the carbide buttons to the tool substrate. The adhesive is applied to either the button or the substrate, and then the button is positioned and pressed into place. The adhesive cures and forms a strong bond that holds the carbide securely in position. |
| 4 | Mechanical Fastening: | Some carbide buttons are attached to tools using mechanical fastening methods such as screws, bolts, or rivets. Holes are pre-drilled in the carbide buttons and the tool substrate, and then fasteners are used to secure the buttons in place. |
| 5 | Sintering: | In some cases, carbide buttons are sintered directly onto the tool substrate during the manufacturing process. Sintering involves applying heat and pressure to the carbide and substrate materials, causing them to bond at a molecular level and form a strong metallurgical bond. |
| 6 | Welding: | Welding can also be used to attach carbide buttons to tool substrates. This method involves melting the carbide and/or the substrate material along the joint area and allowing them to solidify, creating a fused bond between the two materials. |
The choice of assembling method depends on factors such as the type of tool, the design of the carbide buttons, the material compatibility, and the required strength and durability of the bond. Each method has its advantages and considerations in terms of cost, efficiency, and the specific application requirements.
1, Precision Drilling: Achieve accurate and efficient drilling results with the eccentric wedge button.
2, Increased Efficiency: Enhance drilling performance with improved penetration and faster drilling speeds.
3, Versatility: Adapt to various drilling applications with a versatile and reliable tool.
4, Long-lasting Performance: Rely on the durability and longevity of tungsten carbide for prolonged use.
Customized shapes with drawings are available.
| 1 | flat button |
| 2 | chisel button |
| 3 | wedge button |
| 4 | dome button, ball button |
| 5 | mushroom button |
| 6 | spoon button |
Wedge buttons
This kind of carbide button is used for drill bits specifically designed for the geology and mining industry.
Drill bits play a crucial role in drilling into rock formations for exploration, extraction, and other geotechnical activities in these sectors.
While, drill bits featuring tungsten carbide buttons are indispensable tools in the geology and mining industry, offering high performance, durability, and efficiency in rock drilling applications critical to exploration, excavation, and mineral extraction processes.
Enter Your Message
| Zhuzhou Sanxin Cemented Carbide Manufacturing Co., Ltd |
| No. 8, Middle School Road, Baiguan Town, Lusong District, Zhuzhou, Hunan, China |
| 86-731-27492866 |
| sxwg@zzsxhj.com |