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Home / Effective Technique to Identify Structural Damages in Concrete Bridges
 
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Effective Technique to Identify Structural Damages in Concrete Bridges

Talla Ram Prasanna Kumar Reddy, Dr Prof G Manoj Someswar, Dr V Krishnanaik
$298.99
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The present research aims to develop an effective and applicable structural damage detection method. A damage identification approach using only the changes of measured natural frequencies is presented. The structural damage model is assumed to be associated with a reduction of a contribution to the element stiffness matrix equivalent to a scalar reduction of the material modulus. The computational technique used to identify the damage from the measured data is described. The performance of the proposed technique on numerically simulated real concrete girder bridge is evaluated using imposed damage scenarios. To demonstrate the applicability of the proposed method by employing experimental measured natural frequencies this technique is applied for the first time to a simply supported reinforced concrete beam statically loaded incrementally to failure.

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MORE INFO
Format
Paperback
Publisher
LAP Lambert Academic Publishing
Date
26 February 2024
Pages
252
ISBN
9786207467983

The present research aims to develop an effective and applicable structural damage detection method. A damage identification approach using only the changes of measured natural frequencies is presented. The structural damage model is assumed to be associated with a reduction of a contribution to the element stiffness matrix equivalent to a scalar reduction of the material modulus. The computational technique used to identify the damage from the measured data is described. The performance of the proposed technique on numerically simulated real concrete girder bridge is evaluated using imposed damage scenarios. To demonstrate the applicability of the proposed method by employing experimental measured natural frequencies this technique is applied for the first time to a simply supported reinforced concrete beam statically loaded incrementally to failure.

Read More
Format
Paperback
Publisher
LAP Lambert Academic Publishing
Date
26 February 2024
Pages
252
ISBN
9786207467983

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