Your search keyword '"Elices, Manuel"' showing total 4 results

1. Influencia de la presión y la temperatura en el comportamiento de la aorta y las carótidas humanas

Author

Atienza, José M., Guinea, Gustavo V., Rojo, Francisco J., Burgos, Raúl J., García-Montero, Carlos, Goicolea, Francisco J., Aragoncillo, Paloma, and Elices, Manuel

Published

2007

2. Datos sobre la presencia en el litoral de Menorca (Islas Baleares, Mediterráneo occidental) de Parablennius pilicornis (Cuvier, 1829) y Scorpaena maderensis Valenciennes, 1833

Author

Cardona, Lluís and Elices, Manuel

Subjects

Biogeography, Natural History

Abstract

not available

Published

2000

3. Análisis lineal y no lineal de propagación de fisuras en hormigón

Author

Elices, Manuel, Llorca, Javier, and Ingraffea, Anthony R.

Subjects

Estructures de formigó -- Anàlisi numèrica, Numerical Methods, Enginyeria civil::Materials i estructures::Materials i estructures de formigó [Àrees temàtiques de la UPC]

Abstract

El desarrollo de los sistemas de cálculo gráficos e interactivos ha permitido la aplicación de las tCcnicas de Mecánica de Fractura en r6girnen lineal y no lineal para el estudio de la propagación discreta de fisuras en estructuras de hormigón. En este artículo se presentan los modelos teóricos utilizados en Mecánica de Fractura para el estudio de la propagación de una grieta en un medio bidimensional así como las características del código utilizado en el análisis. Se incluyen dos ejemplos como muestra de la versatilidad y potencia de los sistemas de cálculo desarrollados. Discrete crack propagation in concrete structures is now feasible by using an interactive-graphics computer system. This paper presents a theoretical model, suitable for two-dimensional crack propagation in concrete, as well as a description of the computer code. Analysis of two practical situations exemplifies the versatility and power of the developed system.

Published

1987

4. [The influence of pressure and temperature on the behavior of the human aorta and carotid arteries].

Author

Atienza JM, Guinea GV, Rojo FJ, Burgos RJ, García-Montero C, Goicolea FJ, Aragoncillo P, and Elices M

Subjects

Humans, In Vitro Techniques, Pressure, Stress, Mechanical, Temperature, Aorta physiology, Carotid Arteries physiology

Abstract

Introduction and Objectives: The thermomechanical behavior of human arteries is still not well characterized despite its importance for understanding arterial physiology, and for evaluating and improving surgical procedures. The aim of this study was to provide, for the first time, experimental data illustrating how the mechanical responses of two types of human artery -the carotid artery and the aorta- are affected by changes in temperature., Methods: The mechanical properties of the arteries were derived in vitro from internal pressure-external diameter curves measured at four different temperatures (i.e., 17, 27, 37 and 42 degree C). Coefficients of expansion and stiffness were obtained by thermomechanical analysis. The condition of the arterial wall was determined histologically., Results: The aorta and the carotid artery became slightly more compliant as the temperature increased. In both vessels, the coefficient of expansion depended critically on internal pressure. At low pressures, the coefficient of expansion was negative (i.e., the vessel contracted when heated), whereas close to a specific threshold pressure, which is different for each type of artery, the coefficient became positive., Conclusions: The mechanical behavior of arteries is affected by the combination of internal pressure and temperature. Consequently, the effect of this combination should be taken into account in clinical situations involving a change in temperature. Moreover, the strength of the effect depends on the type of artery under study. As a result, more detailed experimental data focusing on vessels of clinical interest are required.

Published

2007