Stud
ARIDA
7318159090
CNC machining center
Stainless Steel
Fastener
Cold Forging
High Rigidity and Precision
ISO, GS, RoHS, CE
One year
Forging
Standard exporting package
ARIDA
China
CNC precision
New
Motor
Worldwide
yes
CNC
| Quantity: | |
|---|---|
| Specification | Thread Size | Length(mm) | thread pitch |
| M4*16 | M4 | 16 | 0.7 |
| M4*20 | M4 | 20 | 0.7 |
| M4*25 | M4 | 25 | 0.7 |
| M4*30 | M4 | 30 | 0.7 |
| M4*35 | M4 | 35 | 0.7 |
| M4*40 | M4 | 40 | 0.7 |
| M4*45 | M4 | 45 | 0.7 |
| M4*50 | M4 | 50 | 0.7 |
| M4*55 | M4 | 55 | 0.7 |
| M4*60 | M4 | 60 | 0.7 |
| M4*65 | M4 | 65 | 0.7 |
| M4*70 | M4 | 70 | 0.7 |
| M4*75 | M4 | 75 | 0.7 |
| M4*80 | M4 | 80 | 0.7 |
| M4*85 | M4 | 85 | 0.7 |
| M4*90 | M4 | 90 | 0.7 |
| M4*100 | M4 | 100 | 0.7 |
| M5*16 | M5 | 16 | 0.8 |
| M5*20 | M5 | 20 | 0.8 |
| M5*25 | M5 | 25 | 0.8 |
| M5*30 | M5 | 30 | 0.8 |
| M5*35 | M5 | 35 | 0.8 |
| M5*40 | M5 | 40 | 0.8 |
| M5*45 | M5 | 45 | 0.8 |
| M5*50 | M5 | 50 | 0.8 |
| M5*55 | M5 | 55 | 0.8 |
| M5*60 | M5 | 60 | 0.8 |
| M5*65 | M5 | 65 | 0.8 |
| M5*70 | M5 | 70 | 0.8 |
| M5*75 | M5 | 75 | 0.8 |
| M5*80 | M5 | 80 | 0.8 |
| M5*85 | M5 | 85 | 0.8 |
| M5*90 | M5 | 90 | 0.8 |
| M5*100 | M5 | 100 | 0.8 |
| M6*16 | M5 | 16 | 1 |
| M6*20 | M5 | 20 | 1 |
| M6*25 | M6 | 25 | 1 |
| M6*30 | M6 | 30 | 1 |
| M6*35 | M6 | 35 | 1 |
| M6*40 | M6 | 40 | 1 |
| M6*45 | M6 | 45 | 1 |
| M6*50 | M6 | 50 | 1 |
| M6*55 | M6 | 55 | 1 |
| M6*60 | M6 | 60 | 1 |
| M6*65 | M6 | 65 | 1 |
| M6*70 | M6 | 70 | 1 |
| M6*75 | M6 | 75 | 1 |
| M6*80 | M6 | 80 | 1 |
| M6*85 | M6 | 85 | 1 |
| M6*90 | M6 | 90 | 1 |
Full Threaded Design:
These studs are fully threaded from end to end, providing a secure and consistent grip when installed.
The full threading ensures a strong connection and allows for precise adjustment and alignment.
Headless Design:
The absence of a head allows the stud to sit flush with the surface of the material or component it is installed in.
This design is particularly useful in applications where a low-profile or flush finish is desired.
Solid Construction:
These studs are made from solid materials, typically metals such as steel, stainless steel, brass, or aluminum, depending on the application requirements.
Solid construction ensures durability and resistance to deformation under load.
Materials:
Common materials include steel, stainless steel, brass, and aluminum.
Stainless steel is often used for its corrosion resistance, while brass is favored for its non-magnetic properties and low electrical conductivity.
Sizes and Lengths:
Available in a wide range of sizes and lengths to accommodate different application needs.
Sizes typically range from very small (e.g., M3 or #4) to larger diameters (e.g., M12 or 1/2 inch).
Thread Types:
Common thread types include metric (M), UNC (Unified National Coarse), and UNF (Unified National Fine).
The choice of thread type depends on the specific application requirements and the mating parts.
Installation:
Installed using a threaded nut or a tapped hole.
In some cases, these studs can be installed using stud welding or press-fit techniques, depending on the material and application.
Applications:
Widely used in automotive, aerospace, mechanical engineering, and general manufacturing.
Suitable for applications where a strong and secure connection is needed, such as mounting brackets, fixtures, and other components.
Strength and Durability:
Provide a strong and durable connection that can withstand high loads and stresses.
The solid construction ensures that the studs maintain their integrity even under demanding conditions.
Customization:
Custom sizes and materials are often available upon request to meet specific application requirements.
Special coatings and finishes can also be applied to enhance corrosion resistance or improve aesthetics.
Regulatory Compliance:
Compliant with relevant industry standards and regulations, such as ISO, ASTM, or DIN, depending on the region and application.
For medical and food-grade applications, compliance with FDA or similar regulatory bodies may be required.
Cost-Effectiveness:
Economical solution for applications requiring strong and reliable fastening.
The lack of a head can reduce material costs and simplify the installation process.
Flush Fit:
The headless design allows the stud to sit flush with the surface of the material or component it is installed in.
This is particularly useful in applications where a low-profile or flush finish is desired.
Strength and Durability:
The solid construction ensures durability and resistance to deformation under load.
These studs provide a strong and secure connection that can withstand high loads and stresses.
Versatile Installation:
These studs can be installed using a threaded nut or a tapped hole.
In some cases, they can also be installed using stud welding or press-fit techniques, depending on the material and application.
Full Threaded Design:
The full threading provides a secure and consistent grip when installed.
The full threading ensures a strong connection and allows for precise adjustment and alignment.
Customizability:
Custom sizes and materials are often available upon request to meet specific application requirements.
Special coatings and finishes can also be applied to enhance corrosion resistance or improve aesthetics.
Wide Range of Materials:
Common materials include steel, stainless steel, brass, and aluminum.
Stainless steel is often used for its corrosion resistance, while brass is favored for its non-magnetic properties and low electrical conductivity.
Cost-Effectiveness:
Economical solution for applications requiring strong and reliable fastening.
The lack of a head can reduce material costs and simplify the installation process.
Versatility:
Widely used in automotive, aerospace, mechanical engineering, and general manufacturing.
Suitable for applications where a strong and secure connection is needed, such as mounting brackets, fixtures, and other components.
Regulatory Compliance:
Compliant with relevant industry standards and regulations, such as ISO, ASTM, or DIN, depending on the region and application.
For medical and food-grade applications, compliance with FDA or similar regulatory bodies may be required.
Wide Range of Sizes and Lengths:
Available in a wide range of sizes and lengths to accommodate different application needs.
Sizes typically range from very small (e.g., M3 or #4) to larger diameters (e.g., M12 or 1/2 inch).
Thread Types:
Common thread types include metric (M), UNC (Unified National Coarse), and UNF (Unified National Fine).
The choice of thread type depends on the specific application requirements and the mating parts.
Easy Handling and Installation:
The lack of a head makes these studs easier to handle and manipulate during installation.
They can be installed using standard tools and equipment, such as wrenches or spanners.
Aesthetics:
The flush fit and clean appearance of these studs make them ideal for applications where visual appeal is important.
Reliability:
These studs are known for their reliability and consistency in performance.
The solid construction ensures that they maintain their integrity even under demanding conditions.
Custom Manufacturing:
Many manufacturers offer custom manufacturing options to meet specific requirements, such as special lengths or thread configurations.
Material Selection:
Choose the Right Material: Consider the environmental conditions and the material properties required for your application. Common materials include steel, stainless steel, brass, and aluminum.
Corrosion Resistance: If the stud will be exposed to corrosive environments, select a material with good corrosion resistance, such as stainless steel.
Size and Dimensions:
Select the Appropriate Size: Choose the correct diameter and length based on the application requirements and the thickness of the material it will be installed in.
Thread Compatibility: Ensure that the thread type and pitch are compatible with the mating parts.
Application Requirements:
Load-Bearing Capacity: Consider the maximum load the stud will bear and select a size and material that can support the required load.
Dynamic Loads: If the stud will be subjected to dynamic loads, such as vibration, ensure that the stud is securely anchored and the material is appropriate for the expected stress.
Installation Method:
Threaded Installation: Use a nut or a tapped hole for installation. Ensure that the hole is properly tapped to match the stud's thread size.
Press-Fit Installation: For certain applications, a press-fit installation may be appropriate. Ensure that the stud is a tight fit in the hole to prevent loosening over time.
Welding: In some cases, the stud can be welded to the base material. This requires specialized equipment and expertise.
Surface Finish:
Coatings: Consider coatings that enhance corrosion resistance or improve the appearance of the stud, such as zinc plating, chrome plating, or PTFE coating.
Aesthetic Considerations: If the appearance of the stud is important, choose a finish that complements the surrounding materials.
Regulatory Compliance:
Industry Standards: Ensure that the stud complies with relevant industry standards and regulations, such as ISO, ASTM, or DIN.
Safety Requirements: Check if there are any specific safety requirements for the application, especially in critical industries like aerospace or medical devices.
Cost and Availability:
Cost-Effectiveness: Compare the cost of the stud with alternative fastening solutions to ensure that it is the most economical option for your application.
Supply Chain Considerations: Consider the lead time and availability of the stud, especially for custom sizes or materials.
Maintenance and Inspection:
Regular Inspections: Regularly inspect the stud for signs of wear, corrosion, or damage.
Replacement: Have a plan in place for replacing studs if necessary, especially in critical applications.
Design Considerations:
Flush Fit: Ensure that the flush fit of the stud is suitable for the application, especially if it is visible or if there are space constraints.
Alignment: Consider the alignment of the stud with other components to avoid interference or misalignment issues.
Environmental Factors:
Temperature: Consider the operating temperature range of the application and ensure that the material and finish are suitable.
Chemical Exposure: If the stud will be exposed to chemicals, select a material and finish that is resistant to the specific chemicals present.
| Specification | Thread Size | Length(mm) | thread pitch |
| M4*16 | M4 | 16 | 0.7 |
| M4*20 | M4 | 20 | 0.7 |
| M4*25 | M4 | 25 | 0.7 |
| M4*30 | M4 | 30 | 0.7 |
| M4*35 | M4 | 35 | 0.7 |
| M4*40 | M4 | 40 | 0.7 |
| M4*45 | M4 | 45 | 0.7 |
| M4*50 | M4 | 50 | 0.7 |
| M4*55 | M4 | 55 | 0.7 |
| M4*60 | M4 | 60 | 0.7 |
| M4*65 | M4 | 65 | 0.7 |
| M4*70 | M4 | 70 | 0.7 |
| M4*75 | M4 | 75 | 0.7 |
| M4*80 | M4 | 80 | 0.7 |
| M4*85 | M4 | 85 | 0.7 |
| M4*90 | M4 | 90 | 0.7 |
| M4*100 | M4 | 100 | 0.7 |
| M5*16 | M5 | 16 | 0.8 |
| M5*20 | M5 | 20 | 0.8 |
| M5*25 | M5 | 25 | 0.8 |
| M5*30 | M5 | 30 | 0.8 |
| M5*35 | M5 | 35 | 0.8 |
| M5*40 | M5 | 40 | 0.8 |
| M5*45 | M5 | 45 | 0.8 |
| M5*50 | M5 | 50 | 0.8 |
| M5*55 | M5 | 55 | 0.8 |
| M5*60 | M5 | 60 | 0.8 |
| M5*65 | M5 | 65 | 0.8 |
| M5*70 | M5 | 70 | 0.8 |
| M5*75 | M5 | 75 | 0.8 |
| M5*80 | M5 | 80 | 0.8 |
| M5*85 | M5 | 85 | 0.8 |
| M5*90 | M5 | 90 | 0.8 |
| M5*100 | M5 | 100 | 0.8 |
| M6*16 | M5 | 16 | 1 |
| M6*20 | M5 | 20 | 1 |
| M6*25 | M6 | 25 | 1 |
| M6*30 | M6 | 30 | 1 |
| M6*35 | M6 | 35 | 1 |
| M6*40 | M6 | 40 | 1 |
| M6*45 | M6 | 45 | 1 |
| M6*50 | M6 | 50 | 1 |
| M6*55 | M6 | 55 | 1 |
| M6*60 | M6 | 60 | 1 |
| M6*65 | M6 | 65 | 1 |
| M6*70 | M6 | 70 | 1 |
| M6*75 | M6 | 75 | 1 |
| M6*80 | M6 | 80 | 1 |
| M6*85 | M6 | 85 | 1 |
| M6*90 | M6 | 90 | 1 |
Full Threaded Design:
These studs are fully threaded from end to end, providing a secure and consistent grip when installed.
The full threading ensures a strong connection and allows for precise adjustment and alignment.
Headless Design:
The absence of a head allows the stud to sit flush with the surface of the material or component it is installed in.
This design is particularly useful in applications where a low-profile or flush finish is desired.
Solid Construction:
These studs are made from solid materials, typically metals such as steel, stainless steel, brass, or aluminum, depending on the application requirements.
Solid construction ensures durability and resistance to deformation under load.
Materials:
Common materials include steel, stainless steel, brass, and aluminum.
Stainless steel is often used for its corrosion resistance, while brass is favored for its non-magnetic properties and low electrical conductivity.
Sizes and Lengths:
Available in a wide range of sizes and lengths to accommodate different application needs.
Sizes typically range from very small (e.g., M3 or #4) to larger diameters (e.g., M12 or 1/2 inch).
Thread Types:
Common thread types include metric (M), UNC (Unified National Coarse), and UNF (Unified National Fine).
The choice of thread type depends on the specific application requirements and the mating parts.
Installation:
Installed using a threaded nut or a tapped hole.
In some cases, these studs can be installed using stud welding or press-fit techniques, depending on the material and application.
Applications:
Widely used in automotive, aerospace, mechanical engineering, and general manufacturing.
Suitable for applications where a strong and secure connection is needed, such as mounting brackets, fixtures, and other components.
Strength and Durability:
Provide a strong and durable connection that can withstand high loads and stresses.
The solid construction ensures that the studs maintain their integrity even under demanding conditions.
Customization:
Custom sizes and materials are often available upon request to meet specific application requirements.
Special coatings and finishes can also be applied to enhance corrosion resistance or improve aesthetics.
Regulatory Compliance:
Compliant with relevant industry standards and regulations, such as ISO, ASTM, or DIN, depending on the region and application.
For medical and food-grade applications, compliance with FDA or similar regulatory bodies may be required.
Cost-Effectiveness:
Economical solution for applications requiring strong and reliable fastening.
The lack of a head can reduce material costs and simplify the installation process.
Flush Fit:
The headless design allows the stud to sit flush with the surface of the material or component it is installed in.
This is particularly useful in applications where a low-profile or flush finish is desired.
Strength and Durability:
The solid construction ensures durability and resistance to deformation under load.
These studs provide a strong and secure connection that can withstand high loads and stresses.
Versatile Installation:
These studs can be installed using a threaded nut or a tapped hole.
In some cases, they can also be installed using stud welding or press-fit techniques, depending on the material and application.
Full Threaded Design:
The full threading provides a secure and consistent grip when installed.
The full threading ensures a strong connection and allows for precise adjustment and alignment.
Customizability:
Custom sizes and materials are often available upon request to meet specific application requirements.
Special coatings and finishes can also be applied to enhance corrosion resistance or improve aesthetics.
Wide Range of Materials:
Common materials include steel, stainless steel, brass, and aluminum.
Stainless steel is often used for its corrosion resistance, while brass is favored for its non-magnetic properties and low electrical conductivity.
Cost-Effectiveness:
Economical solution for applications requiring strong and reliable fastening.
The lack of a head can reduce material costs and simplify the installation process.
Versatility:
Widely used in automotive, aerospace, mechanical engineering, and general manufacturing.
Suitable for applications where a strong and secure connection is needed, such as mounting brackets, fixtures, and other components.
Regulatory Compliance:
Compliant with relevant industry standards and regulations, such as ISO, ASTM, or DIN, depending on the region and application.
For medical and food-grade applications, compliance with FDA or similar regulatory bodies may be required.
Wide Range of Sizes and Lengths:
Available in a wide range of sizes and lengths to accommodate different application needs.
Sizes typically range from very small (e.g., M3 or #4) to larger diameters (e.g., M12 or 1/2 inch).
Thread Types:
Common thread types include metric (M), UNC (Unified National Coarse), and UNF (Unified National Fine).
The choice of thread type depends on the specific application requirements and the mating parts.
Easy Handling and Installation:
The lack of a head makes these studs easier to handle and manipulate during installation.
They can be installed using standard tools and equipment, such as wrenches or spanners.
Aesthetics:
The flush fit and clean appearance of these studs make them ideal for applications where visual appeal is important.
Reliability:
These studs are known for their reliability and consistency in performance.
The solid construction ensures that they maintain their integrity even under demanding conditions.
Custom Manufacturing:
Many manufacturers offer custom manufacturing options to meet specific requirements, such as special lengths or thread configurations.
Material Selection:
Choose the Right Material: Consider the environmental conditions and the material properties required for your application. Common materials include steel, stainless steel, brass, and aluminum.
Corrosion Resistance: If the stud will be exposed to corrosive environments, select a material with good corrosion resistance, such as stainless steel.
Size and Dimensions:
Select the Appropriate Size: Choose the correct diameter and length based on the application requirements and the thickness of the material it will be installed in.
Thread Compatibility: Ensure that the thread type and pitch are compatible with the mating parts.
Application Requirements:
Load-Bearing Capacity: Consider the maximum load the stud will bear and select a size and material that can support the required load.
Dynamic Loads: If the stud will be subjected to dynamic loads, such as vibration, ensure that the stud is securely anchored and the material is appropriate for the expected stress.
Installation Method:
Threaded Installation: Use a nut or a tapped hole for installation. Ensure that the hole is properly tapped to match the stud's thread size.
Press-Fit Installation: For certain applications, a press-fit installation may be appropriate. Ensure that the stud is a tight fit in the hole to prevent loosening over time.
Welding: In some cases, the stud can be welded to the base material. This requires specialized equipment and expertise.
Surface Finish:
Coatings: Consider coatings that enhance corrosion resistance or improve the appearance of the stud, such as zinc plating, chrome plating, or PTFE coating.
Aesthetic Considerations: If the appearance of the stud is important, choose a finish that complements the surrounding materials.
Regulatory Compliance:
Industry Standards: Ensure that the stud complies with relevant industry standards and regulations, such as ISO, ASTM, or DIN.
Safety Requirements: Check if there are any specific safety requirements for the application, especially in critical industries like aerospace or medical devices.
Cost and Availability:
Cost-Effectiveness: Compare the cost of the stud with alternative fastening solutions to ensure that it is the most economical option for your application.
Supply Chain Considerations: Consider the lead time and availability of the stud, especially for custom sizes or materials.
Maintenance and Inspection:
Regular Inspections: Regularly inspect the stud for signs of wear, corrosion, or damage.
Replacement: Have a plan in place for replacing studs if necessary, especially in critical applications.
Design Considerations:
Flush Fit: Ensure that the flush fit of the stud is suitable for the application, especially if it is visible or if there are space constraints.
Alignment: Consider the alignment of the stud with other components to avoid interference or misalignment issues.
Environmental Factors:
Temperature: Consider the operating temperature range of the application and ensure that the material and finish are suitable.
Chemical Exposure: If the stud will be exposed to chemicals, select a material and finish that is resistant to the specific chemicals present.
