torque = force * lever length
torque = 15 * 55
torque = 825 n-cms
Turns on a ratchet do not equate to foot pounds. The ratchet could be turning against very little force or a lot of force. Foot pounds is calculated in automotive mechanics by using a torque wrench.
the most accurate calibrated torque wrench was using the TWT torque wrench tester products that produce by Stahlwille. Its also called transducer.
The socket wrench is one among the system of wrenches that departs the wrench handle from the wrench that engages the fastener. Whereas, the torque wrench are the torque indicating socket wrench handle. When it is used properly, that could help you calculate the torque amount while fastening using the wrench. It also limits the amount of torque which is applied on material.
90 x 0.22 Nm
Yes, they should be as tight as you can get with a 6 inch long wrench
Rotational force is usually spoken of as torque. Torque is a term we use to talk about a force that acts on a body to change its rate of rotation. It is the rotational equivalent of force in a linear motion system. A torque can arise from a single offset-applied force (using "inertial force" or "central bearing / pin force" to generate the balanced couple), from multiple applied forces, or when analyzing structures... from the slices of the structure outside the area of consideration. Roughly, it is a "force times a closest distance", even if that distance is to a point not on the structure under consideration. See the below link for formalism. In general, a torque does not produce linear displacement of the thing that is being "torqued", but nets to zero displacement over some length or some time. Technically, torque is the turning effect of a couple while moment of a force is the turning effect due to a single force but they are often interchanged. Torque is a type of force that causes an object to rotate.
Hydraulic torque refers to a tool that is designed to exert torque on a fastener to achieve the desired tightening or loosening of connection by using a hydraulic.
You use a 5 to 1 torque multiplier and pull 494 newton meters.
Work is the amount of work done by something and usually is from an effect of a force. Like the turning of a wrench around the nut. It is found using this equation Work done = force x perpendicular distance. This is only to a limited understanding
using the equation = moment = force x perpendicular distance from pivot we can say for a constant moment, the minimum force will be used when the distance is at a maximum. in this case, 0.3 metres. 135 = force x 0.3 force = 135 / 0.3 force = 1350/ 3 force = 450 N
If you are just sticking a piece of pipe on the handle so you (as the user) can apply more force to the tool, no, it won't change the ability to get a desired torque on a fastner. And adding an extension between the socket and the drive head of the wrench (a so-called socket extension) to extend the reach of the tool won't negatively affect the performance of the tool, either. The tool must be used properly in either case to get accurate results, but the torque wrench's ability to deliver correct results in accordance with the settings on it won't be diminished. If the tool is the so-called beam-type torque wrench, again, no, you shouldn't have a problem as long as you work carefully.
Assuming the question refers to torque, then 1 ft-lb = 12 in-lbs. If you have a torque wrench reading inch-pounds, divide by 12 to get foot pounds. Conversely, multiply foot pounds by 12 to get inch pounds. If you want to get a little more technical, then read on. Torque quantifies force applied in a twisting action, such as tightening a bolt with a wrench. The longer the lever arm (distance the force is applied from the point of rotation) the greater the torque. This assumes the force is applied in a direction perpendicular to the lever arm, which is the normal case in practice. Formally, the definition of torque is force multiplied by distance, or force acting perpendicular to the lever arm multiplied by the length of the lever arm. If you are doing something like using a torque wrench on a car, you steady the connection of the wrench to the bolt or nut to make sure the force you are applying is perpendicular to the axis define by the length of the bolt. Then the reading on the torque wrench is an accurate measure of the torque applied to the nut or bolt.