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<title>The energy threshold in dynamic probing</title>
<creator>Ibáñez García, Sergio</creator>
<creator>Sagaseta, César</creator>
<creator>Fernández del Rincón, Alfonso</creator>
<subject>Correlation</subject>
<subject>Penetration</subject>
<subject>Dynamic</subject>
<subject>Probing</subject>
<subject>Energy</subject>
<subject>Threshold</subject>
<description>In dynamic probing tests, penetration is closely related to the potential energy of the hammer (nominal energy). This energy&#xd;
stems from the mass and free fall of the hammer after being released from a certain height. Penetration depends on energy,&#xd;
although only on a portion of that nominal energy that is effectively transferred to the rods (ENTHRU) and, more precisely,&#xd;
the energy that reaches the cone (ENTHRUcone). ENTHRU can be measured by monitoring the upper part of the drive rods.&#xd;
To calculate ENTHRUcone, ENTHRU needs to be corrected in three ways. Firstly, the energy loss in the energy transmission&#xd;
through the rods has to be subtracted, as well as the energy loss due to the skin friction of the rods along the soil around&#xd;
them. It is also necessary to add the energy due to the rod weight penetrating the soil. The main hypothesis assumed and later&#xd;
experimentally proved in this paper is based on the fact that ENTHRUcone has to be greater than a certain value or minimum&#xd;
energy (energy threshold: Th) in order to be able to cause penetration. After analyzing more than one hundred blows with&#xd;
different hammer mass and drop height, a small but consistent Th and a linear relationship between energy and penetration&#xd;
beyond it were found. The energy that really produces penetration (ENPEN) will be ENTHRUcone, minus Th. This allows for&#xd;
improved energy corrections and correlations between results from various kinds of penetration tests.</description>
<date>2023-02-06</date>
<date>2023-02-06</date>
<date>2022-10</date>
<type>info:eu-repo/semantics/article</type>
<identifier>1435-9529</identifier>
<identifier>http://hdl.handle.net/10259/7398</identifier>
<identifier>10.1007/s10064-022-02945-z</identifier>
<identifier>1435-9537</identifier>
<language>eng</language>
<relation>Bulletin of Engineering Geology and the Environment. 2022, V. 81, n. 11, 459</relation>
<relation>https://doi.org/10.1007/s10064-022-02945-z</relation>
<rights>http://creativecommons.org/licenses/by/4.0/</rights>
<rights>info:eu-repo/semantics/openAccess</rights>
<rights>Atribución 4.0 Internacional</rights>
<publisher>Springer Nature</publisher>
</thesis></metadata></record></GetRecord></OAI-PMH>