Convert kilogram-force centimeter to newton meter [N*m] Online | Free torque Converter

Kilogram-Force Centimeter [kgf·cm]

Kilogram-force centimeter (kgf·cm) is a unit of torque or moment of force that measures rotational force by applying a force of one kilogram-force (kgf) at a distance of one centimeter (cm) from a pivot point. This unit is widely used in mechanical engineering, instrument calibration, and small machinery design, where moderate torque values need to be measured with precision.

The kilogram-force (kgf) itself is a unit of force based on the gravitational force exerted by one kilogram of mass, making kgf·cm intuitive for practical applications involving mechanical components and assemblies. It is especially common in industries dealing with small to medium-sized torques, such as automotive, robotics, and manufacturing sectors.

Though the newton-meter (N·m) is the official SI unit of torque, kgf·cm remains popular in many settings due to historical use and convenience when working with forces in kilograms and distances in centimeters. For conversion, 1 kgf·cm is approximately 0.09807 newton-meters.

Using kilogram-force centimeters helps engineers and technicians accurately control and specify torque levels, preventing damage and ensuring optimal performance of mechanical systems.

Newton Meter [N·m]

Newton meter (N·m) is the standard SI unit of torque, measuring the rotational force applied to an object around an axis. It combines force in newtons (N) with distance in meters (m) from the axis of rotation. One newton meter represents the torque generated when a force of one newton is applied perpendicularly at a distance of one meter from the rotation axis. This unit is widely used in physics, mechanical engineering, automotive design, robotics, and industrial applications to quantify torque, rotational performance, and mechanical efficiency. A higher N·m value indicates stronger torque and greater ability to cause angular acceleration, while a lower value signifies less rotational force. Engineers and designers use this measure to calculate torque requirements, optimize machinery, ensure component stability, and prevent mechanical failure. By linking force and rotational distance, newton meter provides a practical, precise, and universally recognized standard for analyzing and managing torque in a variety of mechanical, industrial, and scientific applications.