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MAE 340 – Vibrations Image from FDR Library and Museum Image from Hunter Engineering Co. Image from Giant Bicycle Inc. Image from dub-connection Introduction to Mechanical Vibrations Image from A-Tech Instruments Ltd. Image from Sound by Singer Image from E. Klingelé MAE 340 – Vibrations 2 Vibration • Vibration is the study of: the repetitive motion of objects relative to a stationary frame of reference or nominal position (e.g., the equilibrium position) • Vibration is an important factor in many designs: Products that break if they vibrate too much: Buildings and bridges MAE 340 – Vibrations 3 Vibration Products that can’t be used if they vibrate too much: Power/machine tools Robots Products that customers don’t like to vibrate too much: Seat for automobile/tractor/airplane Products that have to vibrate in a specific way: MAE 340 – Vibrations Free vs. Forced Vibration • Free Vibration vs. Forced Vibration Free Vibration All interfaces of the body with the environment are static. Forced Vibration At least one point of the body is subjected to periodic forces or displacements. 4 MAE 340 – Vibrations SDOF vs. MDOF Systems • In a Single-Degree-of-Freedom (SDOF) System we study the motion of a rigid body in one direction. The motion may be rectilinear or rotational. Image from D Inman, Engineering Vibration. 5 MAE 340 – Vibrations 6 SDOF vs. MDOF Systems • In a Multi-Degree-of-Freedom (MDOF) System we study the independent motions of multiple rigid bodies or one rigid body in multiple directions. x4 x1 x2 k1 k2 Fcos ωt m4 x3 m1 m2 k4 m3 x2 k3 m2 x1 k2 k c k m1 c k1 MAE 340 – Vibrations Discrete vs. Continuous Systems • A discrete system has rigid (lumped) masses connected by massless, flexible members (e.g., massless springs and dampers) x k m c k c k c 7 MAE 340 – Vibrations 8 Discrete vs. Continuous Systems • A continuous system has flexible members whose distributed mass is significant to the vibrations Image from www.jeffkemp.com Image from Dlubal Software GmbH MAE 340 – Vibrations Spring-Mass System 9 MAE 340 – Vibrations Spring-Mass System • Solving differential equation 10 MAE 340 – Vibrations Spring-Mass System • How do we find A and φ? 11 MAE 340 – Vibrations Graphing x (t ) 12 MAE 340 – Vibrations Working with Vibration Amplitudes • If we have any two of: Natural frequency = Displacement amplitude = Velocity amplitude = Acceleration amplitude = then we can get the other two. 13 MAE 340 – Vibrations Vibration Nomograph • Use it to specify limits on vibration: Frequency Displacement amplitude Velocity amplitude Acceleration amplitude 14
