Thumbnail
Access Restriction
Subscribed

Author Ryu, Bong Jo ♦ Han, Hyun Hee ♦ Lee, Gyu Seop ♦ Ahn, Kil Young ♦ Lee, Chang Ro
Source SpringerLink
Content type Text
Publisher Korean Society for Precision Engineering
File Format PDF
Copyright Year ©2010
Language English
Subject Domain (in DDC) Technology ♦ Engineering & allied operations
Subject Keyword Cantilevered beam ♦ Dynamic response ♦ Elastic impact ♦ Galerkin’s mode summation method ♦ Least square method ♦ Materials Science ♦ Industrial and Production Engineering
Abstract The beam structure models with impact or contact parts under impact forces have been applied to the design of mechanical and electronic accessories. Switches, pick-ups and sensors are the typical examples of the structure to be designed to colliding with other parts. The damping characteristics and stiffness of an impacter have a great effect on dynamic responses of structures subjected to impact forces. Since the response characteristics of structures have an effect on the generation of impact forces, both theoretical and experimental investigations for the dynamic relationships between the impacter and impact mechanism are required for the structural design to reduce impact forces or eliminate unwanted vibration modes. In this paper, in order to examine the relationship between the changes of the stiffness and damping of an impacter and the variations of the dynamic characteristics of the impact model of a cantilevered beam with an impacter, the impact force of the impacter and response characteristics of the cantilevered beam were analyzed by both numerical simulation and experiments. Since the stiffness and damping of the impacter are highly nonlinear, the contact model using revised Hertz-model was established by experiments. Also, the results of numerical analyses for the dynamic response and impact force of a cantilevered beam with an impacter have a good agreement with experimental results. It is believed that the mathematical model and the analytical method presented here can be used for the design analysis and the improvement of performances of the beam-shape switches and pickup devices.
ISSN 12298557
Age Range 18 to 22 years ♦ above 22 year
Educational Use Research
Education Level UG and PG
Learning Resource Type Article
Publisher Date 2010-08-05
Publisher Place Springer
e-ISSN 20054602
Journal International Journal of Precision Engineering and Manufacturing
Volume Number 11
Issue Number 4
Page Count 9
Starting Page 539
Ending Page 547


Open content in new tab

   Open content in new tab
Source: SpringerLink