A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles Structures

A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles Structures

The paper concerns problems related to controlling the dynamic properties of beam-like elements. The parameters of the investigated system can be changed by external factors, resulting in partial changes in the system mass redistribution. It is assumed that it is possible to control the system dynam...

Full description

Bibliographic Details
Main Authors: Mateusz Żurawski, Bogumił Chiliński, Robert Zalewski
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Materials
Subjects:
mass redistribution
sponge particles structure
semi-passive damping
experimental research
Online Access:https://www.mdpi.com/1996-1944/13/21/4874
id doaj-add203dc00754968bfc1ace1ba28c958
record_format Article
spelling doaj-add203dc00754968bfc1ace1ba28c9582020-11-25T03:33:46ZengMDPI AGMaterials1996-19442020-10-01134874487410.3390/ma13214874A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles StructuresMateusz Żurawski0Bogumił Chiliński1Robert Zalewski2Institute of Machine Design Fundamentals, Warsaw University of Technology, 02-524 Warsaw, PolandInstitute of Machine Design Fundamentals, Warsaw University of Technology, 02-524 Warsaw, PolandInstitute of Machine Design Fundamentals, Warsaw University of Technology, 02-524 Warsaw, PolandThe paper concerns problems related to controlling the dynamic properties of beam-like elements. The parameters of the investigated system can be changed by external factors, resulting in partial changes in the system mass redistribution. It is assumed that it is possible to control the system dynamics by shaping the object frequency structure. The paper introduces the mathematical model of the investigated cantilever beam filled with a Sponge Particle Structure. The continuous model has been simplified to a discrete multi-degree of freedom system. The influence of the system parameters on its behavior is discussed in details. The possible applications of the presented concept are proposed. The spectral vibration analyses were carried out. Theoretical considerations enabled the use of the preliminary semi-active method for controlling the vibration frequencies through a mass redistribution. Experimental studies were carried out to verify the proposed mathematical model.https://www.mdpi.com/1996-1944/13/21/4874mass redistributionsponge particles structuresemi-passive dampingexperimental research
collection DOAJ
language English
format Article
sources DOAJ
author Mateusz Żurawski
Bogumił Chiliński
Robert Zalewski
spellingShingle Mateusz Żurawski
Bogumił Chiliński
Robert Zalewski
A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles Structures
Materials
mass redistribution
sponge particles structure
semi-passive damping
experimental research
author_facet Mateusz Żurawski
Bogumił Chiliński
Robert Zalewski
author_sort Mateusz Żurawski
title A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles Structures
title_short A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles Structures
title_full A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles Structures
title_fullStr A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles Structures
title_full_unstemmed A Novel Method for Changing the Dynamics of Slender Elements Using Sponge Particles Structures
title_sort novel method for changing the dynamics of slender elements using sponge particles structures
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2020-10-01
description The paper concerns problems related to controlling the dynamic properties of beam-like elements. The parameters of the investigated system can be changed by external factors, resulting in partial changes in the system mass redistribution. It is assumed that it is possible to control the system dynamics by shaping the object frequency structure. The paper introduces the mathematical model of the investigated cantilever beam filled with a Sponge Particle Structure. The continuous model has been simplified to a discrete multi-degree of freedom system. The influence of the system parameters on its behavior is discussed in details. The possible applications of the presented concept are proposed. The spectral vibration analyses were carried out. Theoretical considerations enabled the use of the preliminary semi-active method for controlling the vibration frequencies through a mass redistribution. Experimental studies were carried out to verify the proposed mathematical model.
topic mass redistribution
sponge particles structure
semi-passive damping
experimental research
url https://www.mdpi.com/1996-1944/13/21/4874
work_keys_str_mv AT mateuszzurawski anovelmethodforchangingthedynamicsofslenderelementsusingspongeparticlesstructures
AT bogumiłchilinski anovelmethodforchangingthedynamicsofslenderelementsusingspongeparticlesstructures
AT robertzalewski anovelmethodforchangingthedynamicsofslenderelementsusingspongeparticlesstructures
AT mateuszzurawski novelmethodforchangingthedynamicsofslenderelementsusingspongeparticlesstructures
AT bogumiłchilinski novelmethodforchangingthedynamicsofslenderelementsusingspongeparticlesstructures
AT robertzalewski novelmethodforchangingthedynamicsofslenderelementsusingspongeparticlesstructures
_version_ 1724561756614819840

Similar Items