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: | |
|---|---|
Round Flat Head:
The head of the stud is circular in shape with a flat top. This design provides a broad surface area for distributing the clamping force and prevents damage to the mating surface.
The flat head ensures a flush fit when the stud is fully inserted, which can be aesthetically pleasing and reduces the risk of snagging.
Solid Construction:
The stud is solid throughout its length, meaning it does not have any hollow sections. This provides structural integrity and strength.
Solid construction is ideal for applications requiring high tensile strength and durability.
Square Body:
The body of the stud is square-shaped rather than cylindrical. This design can prevent rotation and provide a more secure fit compared to round studs.
The square profile also makes it easier to grip and manipulate the stud during installation.
Long Length:
The stud is described as "long," indicating it is designed for applications requiring a deeper reach or extended penetration through materials.
The length can vary depending on the specific application requirements, but it is generally longer than standard studs.
Without Threads:
Unlike traditional studs, this particular type is unthreaded, meaning it lacks the helical ridges found on threaded fasteners.
The absence of threads can be advantageous in applications where a smooth surface is necessary or where the stud serves primarily as a support or positioning element rather than a threaded fastener.
Material:
These studs can be made from various materials, including steel, stainless steel, brass, or other alloys, depending on the application’s demands for strength, corrosion resistance, and other properties.
Applications:
Support Structures: Used in applications where the stud provides a fixed point for attaching other components or as a guide pin.
Positioning: In machinery or equipment where precise positioning is necessary, these studs can serve as alignment pins.
Structural Components: In construction or fabrication, they can act as spacers or supports for larger structures.
Installation:
Press Fit: Often installed using a press-fit technique, where the stud is pressed into a pre-drilled hole that is slightly smaller than the stud’s diameter.
Adhesive Bonding: Sometimes bonded into position using adhesives for a more permanent installation.
Customization:
These studs can be customized according to specific requirements, such as varying lengths, diameters, and materials, to meet the needs of different applications.
Anti-Rotation:
The square cross-section helps prevent the stud from rotating within the hole, which can be crucial in applications requiring a stable, fixed position.
Smooth Surface:
The absence of threads provides a smooth surface, which can be beneficial in applications where friction must be minimized or where a smooth finish is preferred.
Strength and Durability:
Solid construction ensures the stud can withstand high loads and resist deformation under stress.
Hole Preparation:
Ensure the hole in which the stud will be placed is accurately drilled to the correct diameter and depth to achieve a secure fit.
Alignment:
Precise alignment is crucial during installation to avoid damaging the stud or the mating parts.
Tooling:
Depending on the material and size of the stud, specialized tools may be required for installation, such as hydraulic presses or adhesive application equipment.
Answer: These studs can be made from a variety of materials depending on the application requirements. Common materials include:
Steel: Offers good strength and durability.
Stainless Steel: Provides excellent corrosion resistance and is suitable for harsh environments.
Brass: Known for its conductivity and corrosion resistance, often used in electrical applications.
Aluminum: Lightweight and corrosion-resistant, suitable for applications where weight is a concern.
Answer: A square long stud is chosen over a round one primarily because of its anti-rotation properties. The square cross-section prevents the stud from turning within the hole, which is beneficial in applications where the stud needs to remain stationary. This can be particularly useful in:
Alignment and Positioning: Ensuring parts are correctly aligned and positioned.
Support Structures: Providing stable support without the risk of the stud rotating.
Answer: Installation typically involves:
Press Fit: Pressing the stud into a pre-drilled hole that is slightly smaller than the stud’s diameter to achieve a tight fit.
Adhesive Bonding: Using adhesives to bond the stud permanently into the hole.
Riveting: In some cases, the stud might be riveted into place, although this is less common for solid studs.
Answer: No, these studs are generally not designed for frequent disassembly since they are often installed using a press-fit method or bonding techniques that make removal challenging. They are better suited for applications where the stud remains in place permanently or semi-permanently.
Answer: The solid construction of these studs offers several advantages:
Increased Strength: Provides greater tensile strength compared to hollow studs.
Durability: More resistant to deformation and wear.
Reliability: Less prone to failure under high loads or stresses.
Answer: Whether these studs are suitable for electrical applications depends on the material they are made from. Materials like brass or copper can conduct electricity, while stainless steel or aluminum may not be ideal for conducting current but can be used for insulation purposes or as part of an assembly where electrical conductivity is not required.
Answer: To prevent the stud from becoming loose, ensure that:
The Press Fit is Correct: The hole diameter is slightly smaller than the stud diameter to achieve a snug fit.
Use Adhesives: Apply an appropriate adhesive to secure the stud firmly in place.
Check Regularly: Periodic inspections can help catch any signs of loosening early.
Answer: Yes, these studs can be customized in terms of:
Length: To match the specific depth requirements of the application.
Diameter: To fit different hole sizes.
Material: To suit various environmental and functional needs.
Answer: To select the correct size:
Measure the Hole: Ensure the hole diameter matches the stud’s cross-section.
Consider Load Requirements: Choose a size that can safely support the loads anticipated in the application.
Consult Standards: Refer to industry standards or consult with a supplier for guidance on selecting the right size and material.
Answer: These studs are commonly used in industries such as:
Automotive: For precise alignment and support in vehicle assemblies.
Manufacturing Machinery: In equipment where stability and anti-rotation features are critical.
Construction: As spacers or supports in building structures.
Electronics: In enclosures or assemblies requiring smooth, non-conductive supports.
Round Flat Head:
The head of the stud is circular in shape with a flat top. This design provides a broad surface area for distributing the clamping force and prevents damage to the mating surface.
The flat head ensures a flush fit when the stud is fully inserted, which can be aesthetically pleasing and reduces the risk of snagging.
Solid Construction:
The stud is solid throughout its length, meaning it does not have any hollow sections. This provides structural integrity and strength.
Solid construction is ideal for applications requiring high tensile strength and durability.
Square Body:
The body of the stud is square-shaped rather than cylindrical. This design can prevent rotation and provide a more secure fit compared to round studs.
The square profile also makes it easier to grip and manipulate the stud during installation.
Long Length:
The stud is described as "long," indicating it is designed for applications requiring a deeper reach or extended penetration through materials.
The length can vary depending on the specific application requirements, but it is generally longer than standard studs.
Without Threads:
Unlike traditional studs, this particular type is unthreaded, meaning it lacks the helical ridges found on threaded fasteners.
The absence of threads can be advantageous in applications where a smooth surface is necessary or where the stud serves primarily as a support or positioning element rather than a threaded fastener.
Material:
These studs can be made from various materials, including steel, stainless steel, brass, or other alloys, depending on the application’s demands for strength, corrosion resistance, and other properties.
Applications:
Support Structures: Used in applications where the stud provides a fixed point for attaching other components or as a guide pin.
Positioning: In machinery or equipment where precise positioning is necessary, these studs can serve as alignment pins.
Structural Components: In construction or fabrication, they can act as spacers or supports for larger structures.
Installation:
Press Fit: Often installed using a press-fit technique, where the stud is pressed into a pre-drilled hole that is slightly smaller than the stud’s diameter.
Adhesive Bonding: Sometimes bonded into position using adhesives for a more permanent installation.
Customization:
These studs can be customized according to specific requirements, such as varying lengths, diameters, and materials, to meet the needs of different applications.
Anti-Rotation:
The square cross-section helps prevent the stud from rotating within the hole, which can be crucial in applications requiring a stable, fixed position.
Smooth Surface:
The absence of threads provides a smooth surface, which can be beneficial in applications where friction must be minimized or where a smooth finish is preferred.
Strength and Durability:
Solid construction ensures the stud can withstand high loads and resist deformation under stress.
Hole Preparation:
Ensure the hole in which the stud will be placed is accurately drilled to the correct diameter and depth to achieve a secure fit.
Alignment:
Precise alignment is crucial during installation to avoid damaging the stud or the mating parts.
Tooling:
Depending on the material and size of the stud, specialized tools may be required for installation, such as hydraulic presses or adhesive application equipment.
Answer: These studs can be made from a variety of materials depending on the application requirements. Common materials include:
Steel: Offers good strength and durability.
Stainless Steel: Provides excellent corrosion resistance and is suitable for harsh environments.
Brass: Known for its conductivity and corrosion resistance, often used in electrical applications.
Aluminum: Lightweight and corrosion-resistant, suitable for applications where weight is a concern.
Answer: A square long stud is chosen over a round one primarily because of its anti-rotation properties. The square cross-section prevents the stud from turning within the hole, which is beneficial in applications where the stud needs to remain stationary. This can be particularly useful in:
Alignment and Positioning: Ensuring parts are correctly aligned and positioned.
Support Structures: Providing stable support without the risk of the stud rotating.
Answer: Installation typically involves:
Press Fit: Pressing the stud into a pre-drilled hole that is slightly smaller than the stud’s diameter to achieve a tight fit.
Adhesive Bonding: Using adhesives to bond the stud permanently into the hole.
Riveting: In some cases, the stud might be riveted into place, although this is less common for solid studs.
Answer: No, these studs are generally not designed for frequent disassembly since they are often installed using a press-fit method or bonding techniques that make removal challenging. They are better suited for applications where the stud remains in place permanently or semi-permanently.
Answer: The solid construction of these studs offers several advantages:
Increased Strength: Provides greater tensile strength compared to hollow studs.
Durability: More resistant to deformation and wear.
Reliability: Less prone to failure under high loads or stresses.
Answer: Whether these studs are suitable for electrical applications depends on the material they are made from. Materials like brass or copper can conduct electricity, while stainless steel or aluminum may not be ideal for conducting current but can be used for insulation purposes or as part of an assembly where electrical conductivity is not required.
Answer: To prevent the stud from becoming loose, ensure that:
The Press Fit is Correct: The hole diameter is slightly smaller than the stud diameter to achieve a snug fit.
Use Adhesives: Apply an appropriate adhesive to secure the stud firmly in place.
Check Regularly: Periodic inspections can help catch any signs of loosening early.
Answer: Yes, these studs can be customized in terms of:
Length: To match the specific depth requirements of the application.
Diameter: To fit different hole sizes.
Material: To suit various environmental and functional needs.
Answer: To select the correct size:
Measure the Hole: Ensure the hole diameter matches the stud’s cross-section.
Consider Load Requirements: Choose a size that can safely support the loads anticipated in the application.
Consult Standards: Refer to industry standards or consult with a supplier for guidance on selecting the right size and material.
Answer: These studs are commonly used in industries such as:
Automotive: For precise alignment and support in vehicle assemblies.
Manufacturing Machinery: In equipment where stability and anti-rotation features are critical.
Construction: As spacers or supports in building structures.
Electronics: In enclosures or assemblies requiring smooth, non-conductive supports.
