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● Aluminum Solid Rivets is made of the aluminum material. It can be used in many applications. They are commonly used in brake lining, clutch button, clutch facing, hardware tools, and other industries. Setting the rivet is achieved by passing the rivet through the material to be fixed and then either deforming the end of the shank or fitting a non return washer such as a "starlock". Deformation can be achieved crudely by hammering or in a more controlled fashion either by using a press or spin riveting. The load is stronger than that of half-hollow rivet, which is mainly used for riveting occasions.
● We support customized and can also manufacture non-standard fasteners according to your drawings.
Shank Diameter |
2-18mm |
Head Type |
Flat Head,Oval Head Round Head , Countersunk Head, Round Cone Head and so on, as customer requires |
Standard |
BS 3575, DIN 7338, ANSI B 18.7 and so on |
Raw Material |
Aluminum 1060, 5050, 6063 |
Surface Finish |
Natural color |
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The size of aluminum solid rivets plays a crucial role in determining their strength and load capacity. As a general rule, the larger the rivet, the greater its strength and load capacity. This is because larger rivets have more surface area, which allows them to distribute the load over a larger area and prevent the material from becoming overloaded or shearing.
The strength of a rivet is typically measured in terms of its shear strength, or the amount of force it can withstand before it shears off. Shear strength is affected by several factors, including the size of the rivet, the material from which it is made, and the design of the rivet.
Aluminum solid rivets are available in a wide range of sizes, from small-diameter rivets used for lightweight applications to large-diameter rivets used for heavy-duty applications. The size of the rivet needed will depend on the specific application and the load requirements.
For example, small-diameter aluminum solid rivets are typically used for low-load applications, such as attaching thin sheets of aluminum or other lightweight materials. These rivets may have a shear strength of around 700 pounds per square inch (psi) and a tensile strength of around 35,000 psi.
In contrast, larger-diameter aluminum solid rivets can be used for heavy-duty applications, such as joining thick sheets of aluminum or other heavy materials. These rivets may have a shear strength of up to 10,000 psi and a tensile strength of up to 60,000 psi or more.
It's important to note that the strength of a rivet is also affected by other factors, such as the material from which it is made and the design of the rivet. For example, an aluminum solid rivet with a flat head may have a lower load capacity than a similar-sized rivet with a countersunk head. Additionally, the type of material being joined and the design of the joint itself will also impact the strength of the rivet.
Aluminum is a relatively soft and lightweight material that offers good corrosion resistance and is easy to form and shape. However, it also has some limitations when exposed to high temperatures or corrosive environments.
One of the main limitations of aluminum solid rivets in high-temperature environments is their reduced strength and load-carrying capacity. As the temperature of the aluminum increases, its strength and stiffness decrease and it may become more susceptible to deformation, buckling, or failure. This can lead to a reduction in the joint's overall performance and durability, particularly if the joint is subjected to high loads or vibration.
In addition to the limitations in high-temperature environments, aluminum solid rivets can also be limited in corrosive environments. Aluminum offers good corrosion resistance, but it can still be susceptible to certain types of corrosion, particularly in acidic or alkaline environments. When exposed to corrosive environments, aluminum can corrode, form pits or cracks, and ultimately weaken or fail. This can be particularly problematic in applications where the joint's integrity is critical, such as in aerospace or marine applications.
To mitigate the limitations of aluminum solid rivets in high-temperature or corrosive environments, alternative materials or coatings can be used. For example, stainless steel or titanium rivets can offer higher strength and durability in high-temperature or corrosive environments, while coatings or platings, such as zinc, nickel, or anodizing, can provide additional corrosion protection for aluminum rivets.
The design and installation of the joint can also impact its performance and durability in high-temperature or corrosive environments. For example, the joint may need to be designed with additional fasteners or reinforcements to withstand higher loads or vibration, or the joint may need to be coated or sealed to protect against corrosion. Proper installation techniques, such as using the correct size and type of tool, can also ensure that the rivet is securely fastened and will not loosen or fail over time.