Convert ounce-force foot [ozf*ft] to kilonewton meter [kN*m] Online | Free torque Converter

Ounce-Force Foot [ozf·ft]

Ounce-force foot (ozf·ft) is a unit of torque or moment of force used to measure rotational force in situations requiring finer precision than pound-force foot (lbf·ft) but larger than ounce-force inch (ozf·in). It represents the torque generated when a force of one ounce-force (ozf) is applied at a distance of one foot (ft) from a pivot point. This unit is particularly useful in mechanical engineering, instrumentation, and small-scale mechanical systems where moderate torques are involved.

Ounce-force foot is valuable for quantifying torque in applications such as small machinery, instrument calibration, or assembly of mechanical devices where precise control of rotational force is critical. It helps ensure components are tightened or adjusted correctly without causing damage or failure.

While the newton-meter (N·m) is the SI unit for torque and the pound-force foot (lbf·ft) is common for larger forces, the ounce-force foot unit fits niche applications that require intermediate torque measurements within the imperial system. For reference, 1 ozf·ft equals approximately 0.00885 newton-meters.

Kilonewton Meter [kN·m]

Kilonewton meter (kN·m) is a unit of torque or moment of force commonly used in engineering and physics to measure large rotational forces. It represents the torque produced when a force of one kilonewton (kN) is applied at a distance of one meter (m) from a pivot point. Since one kilonewton equals 1,000 newtons, the kilonewton meter is well-suited for applications involving substantial forces and moments.

This unit is widely used in structural engineering, mechanical design, automotive industries, and heavy machinery, where large torques need to be calculated or controlled. For example, in construction, kN·m is used to describe the bending moments in beams, while in automotive engineering, it measures engine torque.

The kilonewton meter aligns with the International System of Units (SI), making it convenient for global standardization and calculations. It simplifies communication of torque values in large-scale applications by scaling up from newton-meters (N·m).

To convert, 1 kN·m equals 1,000 newton-meters. This unit helps engineers ensure safety, performance, and efficiency in designing and operating mechanical systems subjected to significant forces.