UNC DIN975 Threaded Bar/Threaded Rod
Threaded Rod Information:
Material: Carbon steel
Standards: ISO, DIN 975, ANSI, JIS, GB, BS, etc
Material: Low carbon steel, mild carbon steel
Standards Grade: 4.8, 5.8, 6.8, 8.8, 10.9 B7
Diameter: M4-M52, 1/4" to 2"
Length:1 meter to 3 meters (routine), according to the customers' requests
Surface Treatmnt: Plain, white zinc plated, blue-white zinc plated, yellow zinc plated, hot dipped galvanization, black.
| Length | 1000mm-3000mm |
| Grade | 4.8, 5.8, 6.8, 8.8, 10.9, 12.9 B7 |
| Standards | GB, DIN, ISO, ASTM, etc |
| Material | Carbon Steel,Stainless Steel, Alloy Steel,Copper,Titanium,Nickel, etc |
| Surface | Plain, Black, Zinc Plate,YZP etc |
| Delivery | Within 15 workingdays |
| Package | Paper boxes, Or plastic bags or according to customer requirement |
| Non-standards | OEM is available,please supply drawing or sample |
Tooth bar, also known as lead screw, is a fully threaded rod-shaped mechanical component.
Its main feature is that the entire shaft has threads, and the common types of threads include trapezoidal threads, rectangular threads, serrated threads, etc. Teeth strips are usually used to transmit power, adjust position, or secure connections.
In mechanical transmission, the tooth bar can cooperate with the nut to convert rotational motion into linear motion, achieving precise displacement control. In terms of fastening connections, the combination of teeth and nuts can provide strong clamping force.
The materials of dental strips are diverse, including carbon steel, alloy steel, stainless steel, etc., to adapt to different working environments and strength requirements. The manufacturing accuracy and surface roughness may also vary depending on the specific application scenario.
The common application scenarios of dental strips include the following aspects:
1. Mechanical equipment: such as machine tools, printing machines, packaging machines, etc., used to adjust the position of components, achieve precise motion control and transmission.
2. Automotive industry: Plays a role in the suspension system, seat adjustment mechanism, engine components, etc. of automobiles, helping to achieve fine-tuning and fixing of components.
3. Architecture and furniture manufacturing: used for adjusting the opening and closing of doors and windows, adjusting the height and angle of furniture, etc.
4. Electronic equipment: such as slide rail adjustment for computer server cabinets and fine-tuning devices for some precision instruments.
5. Aerospace: It has applications in aircraft landing gear systems, seat adjustment mechanisms, flight control systems, and other parts.
6. Industrial automation: joint motion control of robots, position adjustment of automated production lines, etc.
7. Medical equipment: such as height adjustment of operating tables, fine-tuning of medical equipment components, etc.
8.Mold manufacturing: used for the opening and closing of molds, ejection mechanisms, etc.
