The additional efficiency of stator unlocking is important only at high speeds.4 newton meters Web0.4 nm to in lbs. However, there is no reason to do this because stator locking is only helpful at high accelerations. The stator can be locked again by depressing the accelerator pedal, and the stator can be unlocked again by pulling or shaking the accelerator pedal. In layman’s terms, the stator is always locked when the car starts accelerating for the first time, and it unlocks when you finish accelerating and start cruising at the desired speed. The force trying to turn the stator backward depends on the total amount of power transmitted through the torque converter, which means that the exact moment when the stator is unlocked and starts rotating depends on how hard the vehicle accelerates. This “unlocking” occurs when the entire torque converter turns fast enough that the forward rotation of the torque converter overpowers the force of the fluid trying to reverse the stator. The stator is set on a one-way bearing that allows it to rotate in one direction to stop interfering with the fluid flow when the torque converter rotates at high speed. However, the stator also creates large turbulence in the fluid and therefore consumes a certain amount of energy in the process. This allows the fluid to transfer its kinetic energy to the output turbine more efficiently. The stator directs the flow of fluid exiting the inlet turbine to have a more substantial impact on the outlet turbine. How the torque converter works will be best clear to you through the following example: For the final calculation, it is necessary to help these two values: 15 \cdot 1.3558 = 20.337 Nm If we take the example that our output speed should be 15 ft-Ibs, we will automatically know that 1 ft-Ibs = 1.3558 Nm. When you convert a newton-meter (Nm) to a foot-pound (ft / Ibs), what you need to do as you did not get the result is to divide your figure (Nm) by 1.356.įirst, you need to check which unit you are working with. The table you see below will help you convert the fundamental torque values, or if the values you need are not in this table, use our converter. The main thing to remember is that 1 Nm equals 0.7376 ft-Ibs. When it comes to converting Nm to ft-Ibs, the application is effortless, both with this calculator and if you work manually. Newton-meters x 0.3048 = Foot-pounds How to convert Newton meters to foot-pounds? The first measures the force applied to the body, and the second is the work published on the body. This moment can be measured through the system of SI units, more precisely Newton-meters, or through the FPS system (foot-pound-second).Īn important difference between the two-newton meters and foot-pounds that the conversion can be confusing. When you use force at a production distance from the exact turning point, it is called torque. Foot-pound force denotes a unit of labor or energy transmitted on the example of a force one pound-force through a linear displacement of one foot. Newton-meters (Nm) is a unit that we use for torque, i.e., if we apply a force to an object, it measures the moment of the object’s tendency to rotate. Nm is the torque measurement at the nut surface, while ft-lbs is the torque measurement at the end of the wrench. The amount of torque can be calculated by multiplying the distance of the force applied from the axis of rotation by the magnitude of the force. Nm and ft-lbs are two units of torque, also called torque or rotating force. For more information about what Nm and ft-Ibc are, how to convert from one unit to another and vice versa, along with examples you have in the text below. It is easy to use and does not require any calculations. This converter is the perfect tool for those who need to convert quickly and easily. Converting from Nm to ft-lbs is a conversion that many mechanics and engineers have to perform, but it can be difficult without a convertor.
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