Journal Guide

Geological Correlation Series is published by the Institute of Geological Correlation (INSUGEO) CONICET / Faculty of Natural Sciences and Miguel Lillo Institute of the National University of Tucuman. Publishes original scientific papers that deal with all specialties in geological and paleontological subjects. Preferably, each volume will include work on a unified same subject or theme. The Geological Correlation is publised Series by the Institute of Geological Correlation (CONICET - National University of Tucumán) and the original Publishes articles on geology and paleontology. Each volume will unify preferently scientifc papers of a common subject or theme.

The intention of the journal Shock and Vibration is to provide a source for the publication of original, archival articles on shock, vibration, sound, structural dynamics, biodynamics, crashworthiness, earthquake engineering, gun dynamics, vehicle dynamics and dynamics and vibration performance of civil, mechanical and aerospace engineering structures. Among the specific areas to be covered are vibration measurements, testing and control, vibration condition monitoring and structural health monitoring, shock hardening, modal testing technology, shock testing, data acquisition, fluid-structure interaction, isolation, noise generation and control, damping, statistical energy analysis, identification (inverse) problems, impact biodynamics, vehicle dynamics, gun dynamics, crashworthiness and vibration serviceability in civil engineering structures. Contributions can cover computational, analytical, and / or experimental technology related to the general area of shock and vibration.

The journal aims to encourage and enhance the role of mechanics and other disciplines as they relate to earthquake engineering by providing opportunities for the publication of the work of applied mathematicians, engineers and other applied scientists involved in solving problems closely related to the field of earthquake and geotechnical engineering.Emphasis is placed on new concepts and techniques, but case histories will also be published if they enhance the presentation and understanding of new technical concepts.Fields Covered:• Seismology and geology relevant to earthquake problems.• Elastodynamics: wave propagation and scattering soil and rock dynamics.• Dynamic constitutive behaviour of materials.• Mathematical methods: system methodology and identification in soil dynamics relevant to earthquake phenomena.• Practical methods.• Probabilistic methods in: seismology, geotechnical earthquake engineering; risk analysis; earthquake engineering reliability; interaction problems; soil structure interaction and fluid-soil interaction; instrumentation and experimental methods; inelastic and nonlinear problems; finite element analysis in dynamics and elastodynamics; earthquake case histories; tsunamis.