Torsional vibration is angular vibration of an object--commonly a shaft along its axis of rotation. Vibration refers to mechanical Oscillations about an equilibrium point. Torsional vibration is often a concern in power transmission systems using rotating shafts or couplings where it can cause failures if not controlled. Power transmission is the movement of Energy from its place of generation to a location where it is applied to performing useful work.
In ideal power transmission systems using rotating parts the torques applied or reacted are "smooth" leading to constant speeds. A torque (τ in Physics, also called a moment (of force is a pseudo- vector that measures the tendency of a force to rotate an object about In reality this is not the case. The torques generated may not be smooth (e. g. , internal combustion engines) or the component being driven may not react the torque smoothly (e. The internal combustion engine is an engine in which the Combustion of Fuel and an Oxidizer (typically air occurs in a confined space called a g. , reciprocating compressors). A reciprocating compressor is a compressor that uses Pistons driven by a Crankshaft to deliver gases at high pressure Also, the components transmitting the torque can generate non-smooth or alternating torques (e. g. , worn gears, misaligned shafts). Because the components in power transmission systems are not infinitely stiff these alternating torques cause vibration along the axis of rotation.
Crankshaft Torsional Vibration
Torsional vibration is a concern in the crankshafts of internal combustion engines because of several factors. The crankshaft, sometimes casually abbreviated to crank, is the part of an Engine which translates reciprocating Linear
- Alternating torques are generated by the slider-crank mechanism of the crankshaft, connecting rod, and piston.
- The motion of the piston mass and connecting rod mass generate alternating torques often referred to as "inertia" torques
- The cylinder pressure due to combustion is not constant through the combustion cycle.
- The slider-crank mechanism does not output a smooth torque even if the pressure is constant (e. g. , at Top Dead Center there is no torque generated)
- Engines with several cylinders can have very flexible crankshafts due to their long length. In a Reciprocating engine, the dead center is the position of a piston in which it is farthest from or nearest to the Crankshaft.
- There is inherently little damping in a crankshaft to reduce the vibration
If torsional vibration is not controlled in a crankshaft it can cause failure of the crankshaft or any accessories that are being driven by the crankshaft (typically at the front of the engine, the inertia of the flywheel normally reduces the motion at the rear of the engine).
This potentially damaging vibration is often controlled by a torsional damper that is located at the front nose of the crankshaft (in automobiles it is often integrated into the front pulley). There are two main types of torsional dampers.
- Viscous dampers consist of an inertia ring in a viscous fluid. The torsional vibration of the crankshaft forces the fluid through narrow passages that dissipates the vibration as heat. The viscous torsional damper is analogous to the hydraulic shock absorber in a car's suspension. A shock absorber in common parlance (or damper in technical use is a mechanical device designed to smooth out or dampen shock impulse and dissipate
- Tuned absorber type of "dampers" often referred to as a harmonic dampers or harmonic balancers (even though it technically does not dampen or balance the crankshaft). This damper uses a spring element (often rubber in automobile engines) and an inertia ring that is typically tuned to the first torsional natural frequency of the crankshaft. This type of damper reduces the vibration at specific engine speeds when an excitation torque excites the first natural frequency of the crankshaft, but not at other speeds. This type of damper is analogous to the tuned mass dampers used in skyscrapers to reduce the building motion during an earthquake. A tuned mass damper, also known as an active mass damper ( AMD) or harmonic absorber, is a device mounted in structures to prevent discomfort damage or
See also
Bibliography
- Nestorides, E. In Solid mechanics, torsion is the twisting of an object due to an applied Torque. A torsion spring is a spring that works by torsion or twisting that is a flexible elastic object that stores Mechanical energy when it is twisted A torsion spring is a spring that works by torsion or twisting that is a flexible elastic object that stores Mechanical energy when it is twisted A torque (τ in Physics, also called a moment (of force is a pseudo- vector that measures the tendency of a force to rotate an object about J. , BICERA: A Handbook on Torsional Vibration, University Press, 1958, ISBN 0521043263
Dapyx Software network: MP3 Explorer | Ebook Manager | Zenithic