Rolling bearings can be classified into two basic categories based on the types of rolling elements they contain. The main difference lies in how they make contact with the raceways:

Axial load definitionphysics

Rolling bearings transfer loads between machine components, and support and guide rotating and oscillating machine elements, such as shafts, axles or wheels. Bearings with rolling elements provi... Read more

Axial loadformula

Axial loading/force is a type of force that acts along the axis of a structure, such as a beam or column. It is a compressive force that can cause the structure to bend or buckle.

Axial loading/force is different from other types of forces, such as shear or bending forces, because it acts directly along the axis of the structure. This means that it puts pressure on the entire cross-section of the structure, rather than just a specific area.

Rolling bearings transfer loads between machine components, and support and guide rotating and oscillating machine elements, such as shafts, axles or wheels. Bearings with rolling elements provide high precision and low friction. This enables higher rotational speeds while reducing noise, heat, and energy usage. They are cost-effective, exchangeable, and typically follow national or international dimension standards.

Axial loading/force can affect the stability of a structure by causing it to deform or buckle. If the force is too great, it can cause the structure to fail completely. Proper design and reinforcement can help prevent this from happening.

Axial loadexample

Some examples of structures that experience axial loading/force include columns, beams, and trusses. These structures are designed to withstand compressive forces along their length.

Scientists and engineers use mathematical equations, such as Euler's formula, to calculate the maximum axial load that a structure can withstand before it fails. They also consider factors such as the material properties and cross-sectional area of the structure to ensure it can handle the expected loading conditions.