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Dynamics of Machinery

Presentations | English

DOM? Do you know what DOM stands for? DOM is the abbreviation of Dynamics of Machinery. A dynamics analysis is what allows one to predict the motion of an object or objects, under the influence of different forces, such as gravity or a spring. Machine dynamics refer to the study of a system's motion based on the forces acting on the system. Machine dynamics apply knowledge of engineering mechanics, especially dynamics, to the problems of real machines. The effect of inertia and the occurrence of vibrations play a major role here. Machine dynamics involves kinematics, dynamics, solid mechanics, acoustics, and finite element methods, and are generally related to reliability/durability. Machine dynamics refer to the study of a system’s motion-based on the forces acting on the system. Machine dynamics apply knowledge of engineering mechanics, especially dynamics, to the problems of real machines. The effect of inertia and the occurrence of vibrations play a major role here. Machine dynamics make it possible to predict the vibrational behavior of a machine and, where possible, to compensate for it. Depending on the task, the vibrations may be desired (shakers, vibrating conveyors) or undesired (engines, turbines). Methods from vibration measuring technology are used too assess and evaluate vibrations. There are also close links to the fields of engineering design, machine elements, and drive systems.

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Dynamics of Machinery

Presentations | English