Customization: | Available |
---|---|
Material: | Carbon Steel |
Type: | Hexagon Head |
Still deciding? Get samples of US$ 0/Piece
Request Sample
|
Suppliers with verified business licenses
Audited by an independent third-party inspection agency
Thread Size: M16X2 Screw Length (excluding the height of the head): 50mm
External Hex Drive: 24mm ; Flange Dia (max): 35mm;
Flange Height (max): 14mm;Thread Coverage: Full Machine Thread
Widely used in automobile industry; The flanged hex bolt allows assembly line workers to install the fasteners much faster than a comparable bolt and washer. Perfect replacements for the old car bolts.
Material: Made of High Carbon Steell with black coating outside which is superior to regular high carbon steel fasterners, provides better strength and corrosion resistance in bad environments like high temperature, cold weather and high humidity areas without the need for time consuming and costly maintenance
Product Description:
Hexagon flange toothed bolt is a common mechanical connection element, usually used in the need for high strength and vibration resistance connection. Its name consists of several parts, which are explained as follows:
1. Hexagonal flange:
Hexagonal: refers to the shape of the bolt head is hexagonal. The hexagonal design allows bolts to be tightened and loosened with tools such as wrenches or pliers.
Flange: There is a flat surface with an extended edge below the bolt head, which is called the "flange". Flanges help to disperse the pressure applied to the bolt and increase the contact area, thereby reducing damage or loosening caused by excessive local pressure.
2. With teeth:
Tooth design: There are usually toothed structures on the flange, which can help the bolt bite better with the surface of the connected object, enhance the friction force, and prevent the connection part from loosening due to vibration or external force. This design is often used where anti-loosening or anti-slip is required.
3. Bolts:
Bolt body: The bolt itself has a thread, which is used to match with the nut or the thread in the hole to complete the tightening. Bolts can withstand tension and pressure and are often used to connect two or more pieces of objects.
Main functions and applications:
Anti-loosening effect: Toothed design can effectively prevent the connection from loosening due to vibration or external force, often used in machinery, automotive, construction and other engineering fields.
Load distribution: Flanges can distribute the pressure applied to the bolt to avoid local damage.
Enhanced tightening: Through the toothed structure, additional friction is provided to ensure a stronger connection.
Advantages:
1. Strong anti-loosening effect
The flange has a toothed structure (toothed flange), which increases the friction between the bolt and the connecting surface, thereby effectively preventing loosening problems due to vibration, impact or prolonged use. This design is especially suitable for applications that require high strength connections, such as automobiles, mechanical equipment, and building structures.
2. Improve load distribution capability
The design of the hexagonal flange provides a larger contact area than ordinary hexagonal bolts, which can effectively disperse the pressure applied to the bolt, reduce a single point of stress concentration, and reduce the damage caused by excessive local stress. This makes the bolts more reliable in environments with high loads and frequent load changes.
3. Simplify installation and disassembly
The wide face of the flange allows greater torque to be used in tightening, thus achieving a higher tightening torque. Due to the hexagonal design of the bolt head, it can be quickly and easily installed and removed by standard tools (such as wrenches), saving time and effort, and reducing the complexity of operation.
4. Enhanced vibration resistance
Due to the features of flange tooth design, it can increase the friction between the bolt and the connected object, and the anti-vibration performance is more prominent. It is especially suitable for applications that withstand vibration and repeated shocks, reducing loosening and fatigue caused by long-term vibration.
5. Extra gaskets saved
Compared with ordinary bolts, hexagonal flange bolts with teeth usually do not require additional washers due to the design of the flange. The flange itself acts as a washer, saving materials and installation steps, and also reducing the trouble of installation.
6. Enhance corrosion resistance
Some hexagonal flange bolts with teeth will have a special surface treatment (such as hot dip galvanized or stainless steel), so that they have better corrosion resistance, adapt to more harsh working environments, and extend the service life of the bolt.
7. Meet standards and improve reliability
The hexagon flange with tooth bolts manufactured according to GB5789 standard have more standardized size and performance requirements, which can ensure the reliability of the bolts in terms of mechanical strength, tensile capacity and accuracy, and adapt to various engineering projects and industrial applications.
8. Prevent crushing or scratching the connected object
The design of flange teeth not only enhances the fastening effect, but also avoids the crush or scratch caused by the ordinary bolt head directly contacting the connected object, especially in the installation process to reduce the damage to the fixed object surface.
Diameter of Screw(D) | Coarse Tooth Spacing(P) | Head to Side(S) | Head Thickness |
M4 | 0.7 | 7 | 2.8±0.3 |
M5 | 0.8 | 8 | 3.5±0.3 |
M6 | 1 | 10 | 4.0±0.3 |
M8 | 1.25 | 13 | 5.3±0.3 |
M10 | 1.5 | 16 | 6.4±0.3 |
M12 | 1.75 | 18 | 7.5±0.3 |
M14 | 2 | 21 | 8.8±0.3 |
M16 | 2 | 24 | 10.0±0.3 |
Specification Table of Thread Screw | |||||
Standard | Size | Pitch of thread (mm) | d(mm) | Wire Diameter ±0.02mm | |
Max | Min | ||||
Chinese National Standard Coarse Thread 60° | M5 | 0.80 | 4.98 | 4.83 | 4.30 |
M6 | 1.00 | 5.97 | 5.82 | 5.18 | |
M7 | 1.00 | 6.97 | 6.82 | 6.18 | |
M8 | 1.25 | 7.96 | 7.79 | 7.02 | |
M9 | 1.25 | 8.96 | 8.79 | 8.01 | |
M10 | 1.50 | 9.96 | 9.77 | 8.84 | |
M11 | 1.50 | 10.97 | 10.73 | 9.84 | |
M12 | 1.75 | 11.95 | 11.76 | 10.7 | |
M14 | 2.00 | 13.95 | 13.74 | 12.5 | |
M16 | 2.00 | 15.95 | 15.74 | 14.5 | |
M18 | 2.50 | 17.95 | 17.71 | 16.20 | |
M20 | 2.50 | 19.95 | 19.71 | 18.2 | |
Chinese National Standard Fine Thread 60° | M5 | 0.50 | 4.97 | 4.86 | 4.57 |
M6 | 0.75 | 5.97 | 5.85 | 5.41 | |
M7 | 0.75 | 6.97 | 6.85 | 6.41 | |
M8 | 1.00 | 7.97 | 7.83 | 7.24 | |
M9 | 1.00 | 8.97 | 8.83 | 8.24 | |
M10 | 1.00 | 9.97 | 9.82 | 9.23 | |
M10 | 1.25 | 9.96 | 9.81 | 9.07 | |
M12 | 1.25 | 11.97 | 11.76 | 11.07 | |
M12 | 1.50 | 11.96 | 11.79 | 10.89 | |
M14 | 1.50 | 13.96 | 13.79 | 12.89 | |
M16 | 1.50 | 15.96 | 15.79 | 14.89 | |
M18 | 1.50 | 17.95 | 17.73 | 16.86 | |
M20 | 1.50 | 19.95 | 19.65 | 18.85 |
Specification Table of Thread Screw | |||||
Standard | Size | Thread per inch | d(mm) | Wire Diameter ±0.02mm | |
Max | Min | ||||
British Standard Whitworth Thread (Coarse) 55° | 1/8 | 40 | 3.145 | 3.03 | 2.70 |
5/32 | 32 | 3.945 | 3.795 | 3.38 | |
3/16 | 24 | 4.732 | 4.592 | 4.00 | |
1/4 | 20 | 6.32 | 6.165 | 5.45 | |
5/16 | 18 | 7.905 | 7.737 | 6.94 | |
3/8 | 16 | 9.49 | 9.312 | 8.4 | |
7/16 | 14 | 11.2 | 10.88 | 9.84 | |
1/2 | 12 | 12.66 | 12.46 | 11.22 | |
9/16 | 12 | 14.25 | 14.04 | 12.81 | |
5/8 | 11 | 15.83 | 15.61 | 14.27 | |
Unified Coarse Pitch Thread ( American Standard) 60° | 4# | 40 | 2.824 | 2.695 | 2.37 |
5# | 40 | 3.154 | 3.026 | 2.69 | |
6# | 32 | 3.484 | 3.333 | 2.91 | |
8# | 32 | 4.142 | 3.991 | 3.57 | |
10# | 24 | 4.80 | 4.618 | 4.05 | |
12# | 24 | 5.461 | 5.279 | 4.7 | |
1/4 | 20 | 6.322 | 6.117 | 5.45 | |
5/16 | 18 | 7.907 | 7.687 | 6.93 | |
3/8 | 16 | 9.491 | 9.254 | 8.40 | |
7/16 | 14 | 11.08 | 10.82 | 9.83 | |
1/2 | 13 | 12.66 | 12.39 | 11.32 | |
9/16 | 12 | 14.25 | 13.96 | 12.8 | |
5/8 | 11 | 15.83 | 15.53 | 14.26 | |
Unified Fine Pitch Thread ( American Standard) 60° | 4# | 48 | 2.877 | 2.713 | 2.44 |
5# | 44 | 3.157 | 3.036 | 2.73 | |
6# | 40 | 3.484 | 3.356 | 3.02 | |
8# | 36 | 4.145 | 4.006 | 3.63 | |
10# | 32 | 4.803 | 4.651 | 4.23 | |
12# | 28 | 5.461 | 5.296 | 4.81 | |
1/4 | 28 | 6.324 | 6.16 | 5.68 | |
5/16 | 24 | 7.909 | 7.727 | 7.16 | |
3/8 | 24 | 9.497 | 9.315 | 8.74 | |
7/16 | 20 | 11.08 | 10.87 | 10.18 | |
1/2 | 20 | 12.67 | 12.46 | 11.76 | |
9/16 | 18 | 14.25 | 14.03 | 13.25 | |
5/8 | 18 | 15.83 | 15.62 | 14.83 |
Advanced Planning | Process Control | Quality Issue Feedback |
·Multi-functional project team ·Build up standard tree,do the analysis and training ·DFMEA ·4 stage project review, quality gate ·PFMEA ·Visualized WI |
·First and final piece100% inspection. ·Combine self-inspect and patrol inspect. ·Regular inspection on fixture and gauges. ·Upper andlower process error prevention control ·5M1E management |
·Quick feedback, arrive sitewithin 10 minutes ·Define interim and containment action within 4hours ·Daily quick response meeting ·8D ·6 Sigma ·Actions follow-upvalidation ·Share to similarproducts ·Record into failure mode database |