2017
DOI: 10.1061/(asce)mt.1943-5533.0001755
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Experimental Characterization of Masonry and Masonry Components at High Strain Rates

Abstract: The strain rate effect influences the mechanical properties on most construction materials and its investigation is critical for structural engineering. Current materials such as steel or concrete have been intensively investigated. However, similar studies on the dynamic properties of masonry or masonry components such as clay brick or mortar are scares. This work intends to study the behavior of masonry and its usual components (clay brick and mortar) when subjected to high strain rates. A Drop Weight Impact… Show more

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Cited by 17 publications
(14 citation statements)
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“…At present time, the dynamic mechanical behavior of lime mortars is getting more attention due to the fact that most masonry structures are situated in zones of seismic activity, such as Lisbon (Portugal), L'Aquila (Italy), Lorca (Spain), Kathmandu (Nepal), Nairobi (Kenya), etc. Pereira and Lourenço [14] studied the dynamic compressive behavior of masonry specimens, clay brick, and mortar prisms by using a drop-weight tower. The corresponding strain rate range was from 2 to 200 s −1 .…”
Section: Introductionmentioning
confidence: 99%
“…At present time, the dynamic mechanical behavior of lime mortars is getting more attention due to the fact that most masonry structures are situated in zones of seismic activity, such as Lisbon (Portugal), L'Aquila (Italy), Lorca (Spain), Kathmandu (Nepal), Nairobi (Kenya), etc. Pereira and Lourenço [14] studied the dynamic compressive behavior of masonry specimens, clay brick, and mortar prisms by using a drop-weight tower. The corresponding strain rate range was from 2 to 200 s −1 .…”
Section: Introductionmentioning
confidence: 99%
“…Scaling laws allow for parametric correlations between a defined explosion and a standard charge of the same substance to predict the effects of large-scale explosions using a smaller scale [24]. The Hopkinson-Cranz scaling laws are the most widely accepted (2), where R is the standoff distance from the center of the detonation, in m, and W is the charge mass in kg of equivalent TNT.…”
Section: Blast Loading Definition and Fem Modelingmentioning
confidence: 99%
“…The equations proposed by Wu and Hao for the arrival time [10] and the equation by Sadovskyi for the positive phase duration [11] were closest to these charts [8]. Newmark and Hansen's equation for the peak side-on overpressure [12] was used in a previous case study [2]. The reflected overpressure was calculated based on previously determined formulations [13].…”
Section: Blast Loading Definition and Fem Modelingmentioning
confidence: 99%
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“…In this concern, Pereira and Lourenço [4] tested a commercial pre-mixed mortar under different strain rates ranging from 2 s -1 to 200 s -1 by using a drop-weight tower. For the highest strain rate, they obtained a dynamic increase factor (DIF), a ratio of the dynamic response over the quasi-static one, for the fracture energy in compression of 2.73.…”
Section: Introductionmentioning
confidence: 99%