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Calculate rivet force easily with our Riveting Force Calculator. Supports shear, upset, and bearing force in metric and imperial units. Fast and accurate results.
If you’re working with metal structures, mechanical assemblies, or fabrication tasks, calculating the correct riveting force is essential. A rivet that’s too weak can lead to failure, while an overly strong one could damage the materials. That’s why we built the Riveting Force Calculator a simple, accurate, and user-friendly online tool to help you determine how much force a rivet can handle under shear, bearing, or upsetting conditions. Whether you're dealing with steel rivets, aluminum, or metric fasteners, our tool handles it all.
Riveting force refers to the amount of force a rivet can handle or needs during installation. It depends on multiple factors including the rivet material, diameter, area, and the type of force involved shear force, tensile force (upsetting), or bearing force. These calculations help ensure that riveted joints are secure, strong, and safe for long-term use.
Our calculator is based on proven engineering formulas. It supports both imperial and metric units, and allows you to calculate three different force types:
To calculate the force a rivet can handle in shear:
Force = Shear Strength × Shear Area
Where:
This is the force needed to deform or set the rivet during installation:
Force = Tensile Strength × Upset Area
Where:
Used to determine the force applied when a rivet bears against the hole's edge:
Force = Bearing Stress × Hole Diameter × Sheet Thickness
Where:
These calculations are the foundation of rivet strength analysis and are essential in structural design, bridge construction, aerospace engineering, and other load-critical applications.
Using our Riveting Force Calculator is incredibly simple:
Step 1: Choose the Calculation Type
Select whether you want to calculate Shear Force, Upset Force, or Bearing Force. Each tab provides a unique calculator interface.
Step 2: Enter Input Values
Fill in the required values such as shear strength, area, hole diameter, or sheet thickness. You can choose units like psi, MPa, ksi, in², mm², etc.
Step 3: Get Instant Results
Once you hit “Calculate”, the calculator instantly gives you the force result in your selected output unit (lbf, N, kgf, etc.), along with automatic conversions to all other major force units.
Our tool is designed to save engineers and fabricators time by providing fast, accurate results for any type of rivet design.
If you're asking questions like “How much force can a rivet hold?” or “How do I calculate how many rivets I need?”, our Riveting Force Calculator gives you the answers instantly. No need to dig through textbooks or convert units manually — it’s all built into one easy-to-use tool.
Whether you’re working on a steel frame, an aluminum panel, or a complex aerospace structure, you need accurate riveting data. Our calculator not only gives you the correct force but also ensures that your rivet joints meet engineering safety standards.
Try the Riveting Force Calculator today and get instant, reliable answers.
You can calculate it using formulas like:
Shear Force = Shear Strength × Area
Upset Force = Tensile Strength × Upset Area
Bearing Force = Bearing Stress × Diameter × Thickness
But using an online calculator speeds up the process and avoids unit conversion errors.
It supports both metric (MPa, mm², N) and imperial (psi, in², lbf) units. It also includes automatic conversions between them.
Yes. Just enter the correct shear strength or tensile strength of steel (e.g., 400 MPa) and the area, and the calculator does the rest.
It depends on the rivet’s material, size, and type of force (shear, upset, or bearing). You can find this value using our calculator.
Divide the total load you expect your joint to carry by the force one rivet can hold. That gives you the number of rivets required.