A study of the rank force method for structural matrix vibration analysis
A study of the rank force method for structural matrix vibration analysis
In the field of structural vibration
analysis using finite element techniques and a distributed structural mass
representation the displacement method has virtually received complete priority
over the force method. To date, no published work has been found on a force approach
which adopts an automatic selection of redundancy technique and a distributed
structural mass representation. This thesis formulates and investigates such a
force method ("The Rank Force Method") and the rank technique is used
for automatic selection of redundancies. Distinction is made between static and
dynamic redundancy. Procedures for deriving element dynamic flexibility
matrices are presented and then applied to give particular dynamic matrices. It
is shown that such matrices can be separated into an element static flexibility
matrix and an element inverse mass matrix, Endload, beam and rectangular plate
elements are considered. Using these elements the rank force method is applied
to a number of structural configurations to evaluate their eigenvalues. These
results are compared with those obtained using alternative procedures. Element loads
and structural reactions for a given frequency and applied loading are also
given. A general discussion of the rank force method for vibration analysis is
given.
When adopting this force approach for
eigenvalue evaluation a highly reduced structural dynamic flexibility matrix
can be used, a method is presented and investigated. It is also shown that in
vibration analyses the structural reactions need not be imposed until the final
stages 6f the force formulation. This is ideal when analysing large practical
structures.
All results are obtained by writing the rank
force method as a computerized structural analysis research system, such a
system is presented and described.
University of Southampton
Robinson, John
d362629e-16e0-4868-83f7-8050fc3402d7
October 1967
Robinson, John
d362629e-16e0-4868-83f7-8050fc3402d7
Clarkson, B.L.
30909020-e0fa-43ba-b19e-81b2f3be26e1
Robinson, John
(1967)
A study of the rank force method for structural matrix vibration analysis.
University of Southampton, Institute of Sound and Vibration Research, Doctoral Thesis, 428pp.
Record type:
Thesis
(Doctoral)
Abstract
In the field of structural vibration
analysis using finite element techniques and a distributed structural mass
representation the displacement method has virtually received complete priority
over the force method. To date, no published work has been found on a force approach
which adopts an automatic selection of redundancy technique and a distributed
structural mass representation. This thesis formulates and investigates such a
force method ("The Rank Force Method") and the rank technique is used
for automatic selection of redundancies. Distinction is made between static and
dynamic redundancy. Procedures for deriving element dynamic flexibility
matrices are presented and then applied to give particular dynamic matrices. It
is shown that such matrices can be separated into an element static flexibility
matrix and an element inverse mass matrix, Endload, beam and rectangular plate
elements are considered. Using these elements the rank force method is applied
to a number of structural configurations to evaluate their eigenvalues. These
results are compared with those obtained using alternative procedures. Element loads
and structural reactions for a given frequency and applied loading are also
given. A general discussion of the rank force method for vibration analysis is
given.
When adopting this force approach for
eigenvalue evaluation a highly reduced structural dynamic flexibility matrix
can be used, a method is presented and investigated. It is also shown that in
vibration analyses the structural reactions need not be imposed until the final
stages 6f the force formulation. This is ideal when analysing large practical
structures.
All results are obtained by writing the rank
force method as a computerized structural analysis research system, such a
system is presented and described.
Text
Robinson 1967 Thesis
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Published date: October 1967
Organisations:
University of Southampton
Identifiers
Local EPrints ID: 52180
URI: http://eprints.soton.ac.uk/id/eprint/52180
PURE UUID: 8adce1ea-3c05-4adf-9491-ae2c5bb3bbbb
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Date deposited: 27 Aug 2008
Last modified: 15 Mar 2024 10:26
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Contributors
Author:
John Robinson
Thesis advisor:
B.L. Clarkson
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