Identifying joints from measured reflection coefficients in beam-like structures with application to a pipe support
Identifying joints from measured reflection coefficients in beam-like structures with application to a pipe support
The properties of joints in mechanical systems are notoriously uncertain causing corresponding uncertainty in the systems’ dynamic responses. A piping system is one such example where an accurate knowledge of joint properties is useful for the purposes of structure-borne sound transmission, fatigue considerations and structural health monitoring. This paper presents an inverse technique that is applicable to joint estimation in one-dimensional structures such as a pipe. Measured wave reflection coefficients are used which have several advantages over modal information. First, they characterise just the joint and adjacent pipes and are independent of the rest of the built-up system. Second, they are potentially more sensitive to the joint parameters in question than are modal parameters.
The method is illustrated by means of an experimental case study featuring a straight pipe suspended by a cantilevered hanger. The stiffness and inertia of the hanger are accurately identified from measured data at frequencies significantly higher than the fundamental modes of the structure
joints, pipe, model updating, waves, inverse problems
784-795
Zhang, Bing
c09a7f2c-b132-4e92-a88d-940ee2882955
Waters, Timothy P.
348d22f5-dba1-4384-87ac-04fe5d603c2f
Mace, Brian R.
cfb883c3-2211-4f3a-b7f3-d5beb9baaefe
April 2010
Zhang, Bing
c09a7f2c-b132-4e92-a88d-940ee2882955
Waters, Timothy P.
348d22f5-dba1-4384-87ac-04fe5d603c2f
Mace, Brian R.
cfb883c3-2211-4f3a-b7f3-d5beb9baaefe
Zhang, Bing, Waters, Timothy P. and Mace, Brian R.
(2010)
Identifying joints from measured reflection coefficients in beam-like structures with application to a pipe support.
Mechanical Systems and Signal Processing, 24 (3), .
(doi:10.1016/j.ymssp.2009.10.023).
Abstract
The properties of joints in mechanical systems are notoriously uncertain causing corresponding uncertainty in the systems’ dynamic responses. A piping system is one such example where an accurate knowledge of joint properties is useful for the purposes of structure-borne sound transmission, fatigue considerations and structural health monitoring. This paper presents an inverse technique that is applicable to joint estimation in one-dimensional structures such as a pipe. Measured wave reflection coefficients are used which have several advantages over modal information. First, they characterise just the joint and adjacent pipes and are independent of the rest of the built-up system. Second, they are potentially more sensitive to the joint parameters in question than are modal parameters.
The method is illustrated by means of an experimental case study featuring a straight pipe suspended by a cantilevered hanger. The stiffness and inertia of the hanger are accurately identified from measured data at frequencies significantly higher than the fundamental modes of the structure
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Published date: April 2010
Keywords:
joints, pipe, model updating, waves, inverse problems
Organisations:
Dynamics Group
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Local EPrints ID: 79100
URI: http://eprints.soton.ac.uk/id/eprint/79100
ISSN: 0888-3270
PURE UUID: b6b7a77f-cb0d-4afa-ad6a-679a8512e3c0
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Date deposited: 12 Mar 2010
Last modified: 14 Mar 2024 00:28
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Author:
Bing Zhang
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