Proyectos

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]Work on the open problem of proving existence of minimizers in nonlinear elasticity in the paradigmatic neoHookean model. Finite element simulations, modelling, and experiments for swelling of polymer gels bonded to rigid substrates. Finite element simulations, modelling, and asymptotic analysis for Schallamach waves in the detachment of thin hydrogels. Proof that the transition, in elastomers and ductile materials, from multiple independent spherical cavitation to the coalescence stage occurs when the size, in the deformed configuration, of the opened cavities is comparable to the distance, in the reference configuration, between the cavitation singularities.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]El Objetivo del proyecto es mitigar impacto económico mediante difusión y capacitaciones taxonómicas y visuales enfocadas a pequeños productores, logrando un plan de manejo integrado de la plaga.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""][/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""][/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]Overview: We have recently observed that shear shock waves are generated and subsequently propagate in the brain under impact conditions that are quite general. For example, a 35g impact, which is in the concussive range, propagates nonlinearly in the brain and develops into a thin, destructive 300g shock front. This highly localized increase in acceleration suggests that shear shock waves are a fundamental mechanism for traumatic injuries in the brain and in soft tissue. These observations were made with ultrasonic methods that we have developed based on clutter reducing high frame-rate (10,000 images/second) imaging sequences and high sensitivity (better than 1 micrometer) motion tracking algorithms. This imaging method offers a unique combination of imaging speed, accuracy, and penetration that interrogates a spatiotemporal regime not accessible to other imaging modalities. On the other hand, the physics of nonlinear elastic waves in soft solids has been practically unexplored. In particular, just a few theoretical papers have addressed the generation of nonlinear surfaces waves in soft solids. None experimental research has reached to the complete observation of nonlinear surface wave in soft solids. Therefore, the physics of the propagation of nonlinear surfaces waves and its consequences on soft solid, presents many experimental, theoretical, and numerical opportunities for investigation. With applications in the biomechanics of injuries as well as in geophysics due to that most of the damage produced by an earthquake is due to surface waves because they spread energy more efficiently. Goals: The general objective of this proposal is to reveal the physics governing the propagation of nonlinear surface waves in soft solids. The origin of the nonlinearity in these waves is unclear. Few authors suggest that it comes only from a geometrical effect due to the definition of the nonlinear strain tensor. However, at increased amplitudes, we hypothesize that the material nonlinearity also should play a role. The effect of these two nonlinear components is unknown. It has been predicted that the nonlinearity might distort the wave profile producing discontinuities in the particle displacement velocity or acceleration. Until now, no experimental clues about the conditions and parameters that generate these discontinuities have been found. Another open question in this topic is related to the penetration depth. Surface wave typically penetrates few wavelengths within the surface of propagation. However, in soft solids, typical wavelength are in the order of centimeters, making the penetrating wave an important subject of study. The effect of the nonlinear distortion with depth is unknown and an aim of this proposal. Thus, here we propose to develop models, theory and experiments that elucidate this questions and give us a clear picture of the behavior of these waves in soft materials like gelatin. Methodology: Unlike compressional shocks in fluids, elastic waves, such as surface waves, are practically unexplored due to the experimental challenges associated with observing waves at depth in solids. Current observations of surface waves are confined only at the free surface and restricted only to Rayleigh waves. Surface waves in other interfaces such as solid-fluid or solid-solid have not been experimentally explored in soft solids yet. Advanced ultrasound imaging techniques implemented on a highly customized imaging platform designed for high frame-rate imaging will be used to characterize fundamental surface wave physics in homogeneous soft solids. These observations and characterizations of nonlinear surface waves will be achieved with a number of steps that integrate advancements in ultrasound imaging, advancement in algorithms that measure the deformation and advancements in modeling. The advancement on the visualization of displacements will be validated using a fringe projection profilometry system, based on a high frame rate camera. We will perform experiments in the linear regime to characterize attenuation and dispersion, which interact with the nonlinearity and therefore, have a significant impact on the resulting kinematic of the medium, due to their frequency dependent nature. Custom two-dimensional imaging sequences, designed for shock wave tracking, will be implemented for a dedicated Linear array transducer that has 128 elements and can reach a spatial resolution of 200 microns at very high frame-rate in the order of 10000 frames per second. This ultrasound technology does not exist until now in Chile. Expected results: The results of this proposal will elucidate the origin of the nonlinear response of soft materials for the surface waves. We expect that at sufficiently high amplitude the material nonlinearity will be expressed. Additionally, due to the distortions of the wave profile generated by the nonlinearity, we expect to observe discontinuous particle displacement, velocity and/or acceleration. These discontinuities will be classified as a new type of shock wave. We hope to see that this new type of shock wave propagates over a longer distance than the compressional shock or shear shock, principally due to that surface waves spread reducing its amplitude proportionally to the square root of the propagation distance instead of typical reduction proportional to the propagation distance observed in bulk waves. We also expect the shock waves associated with surface waves are more likely to produce fracture or catastrophic event in soft solids. In the context of linear wave propagation, we expect to measure the power laws that govern the frequency dependent attenuation and dispersion for surface waves. If successful, this research would suggest the nonlinear surface waves as a new mechanism for injury. In addition, this research could become a platform to test shock wave ideas that are very difficult to prove in compressional waves. Thus, it would serve as an analogous physical system to study shock waves in general.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""][/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]El tetrahidrocannabinol (THC) es el principal compuesto activo de la Cannabis, siendo el causante de los efectos estupefacientes de la droga. Esta droga se considera una de las drogas de abuso más prevalentes en la población, se estima que casi un 5% de los adultos en el planeta consumen cannabis, con países como Estados Unidos con un consumo de más del 12% de los adultos. En la actualidad el uso recreacional y medicinal de la cannabis esta en alza y se espera su consumo continúe aumentando, sobretodo en jóvenes. La primera administración de THC causa múltiples efectos en el organismo. Por ejemplo, una dosis de THC puede causar analgesia, ataxia (descoordinación motora), inhibición motora, actividad anticonvulsionante, hipotermia, inmovilidad, incremento en el apetito, euforia seguida de sedación, dificultades en la memoria, entre otros efectos. Sin embargo, estos efectos disminuyen tras la administración crónica por semanas y meses de la droga, tanto en estudios con humanos como con animales de laboratorio, demostrando así el desarrollo de tolerancia a ciertos efectos del THC. Desde una análisis Pavloviano de la tolerancia a las drogas, los estímulos, contextos y situaciones presentes al momento de la administración de una droga funcionan como estímulos condicionados, y los efectos de la droga en el sistema nervioso como estímulos incondicionados. Así, cuando los efectos de la administración de una droga perturban la homeostasis del organismo, este responde con respuestas incondicionadas opuestas que compensan los efectos de la droga, ayudando así a restablecer la homeostasis. Dado que la evaluación de la tolerancia a los efectos del THC no ha sido explorada desde esta perspectiva asociativa, a pesar de ser un modelo que bien explica la tolerancia a otras drogas como la morfina y el etanol, en el presente proyecto proponemos evaluar los efectos agudos, la tolerancia, y la especificidad contextual de la tolerancia al THC. Además, considerando la importancia del desarrollo durante la gestación y la lactancia, evaluaremos los efecto de la administración de THC en estas etapas, tanto en el desarrollo de tolerancia como en posibles efectos detrimentales en la memoria y el aprendizaje. Considerando lo anterior, en el presente proyecto proponemos evaluar los efectos agudos, la tolerancia, y la especificidad contextual de la tolerancia al THC en ratas Sprague Dawley. Así, la Serie experimental 1 evaluará los efectos del THC en la coordinación motora (utilizando una Rueda caminadora), la 2 evaluará los efectos del THC en la locomoción (utilizando un Campo abierto), y la 3 evaluará los efectos del THC en la memoria (utilizando una Laberinto radial), todo esto en ratas a cuyas madres se les administró THC durante la gestación y la lactancia y a ratas cuyas madres no han recibido THC. La Serie experimental 4 evaluará el aprendizaje y la memoria en ratas a cuyas madres se les administró THC durante la gestación y la lactancia (utilizando un Laberinto radial y cajas de condicionamiento). En específico, los Experimento 1.1, 2.1, y 3.1 evalúan diariamente a los sujetos por 30 días en su coordinación motora, locomoción, y memoria, respectivamente, antes y después de una administración de THC. Adicionalmente los sujetos serán evaluados de igual forma en el contexto regular de administración y en un nuevo contexto, para determinar así la situacionalidad de la tolerancia. Los Experimentos 1.2, 2.2, y 3.2 siguen los mismos procedimientos, pero se realizarán en tres grupos de ratas, ratas a cuyas madres de les administró THC durante la gestación y la lactancia y ratas descendientes de madres sin experiencia con el THC. En los Experimento 4.1, 4.2, y 4.3 tres grupos de ratas serán evaluadas en su capacidad para adquirir una asociación Pavloviana, una operante, y en una tare de memoria, respectivamente. Se utilizarán ratas a cuyas madres de les administró THC durante la gestación y la lactancia y ratas descendientes de madres sin experiencia con el THC. Se espera que la administración aguda de THC tendrá un efecto detrimental en la coordinación motora, la locomoción, y la memoria, que los sujetos desarrollarán tolerancia a los efectos del THC luego de múltiples administraciones, y que esta tolerancia será especifica al contexto de administración. Además, se espera que la administración de THC durante la gestación y el embarazo tenga un efecto detrimental en la coordinación motora, la locomoción, y la memoria, que acelere el desarrollo de la tolerancia sin necesariamente afectar la situacionalidad de la tolerancia. Finalmente, se espera que la administración de THC durante la gestación y el embarazo tenga un efecto detrimental en el aprendizaje de tareas de condicionamiento Pavloviano apetitivo, de condicionamiento operante apetitivo, y de memoria.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]Los debates sobre la feminización del magisterio en América Latina: siglo XIX y XX, financiado por el programa PAT del Instituto Panamericano de Geografía e Historia 2019.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""][/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]

[vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""][/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]