Your search keyword '"Ledezma, Martin"' showing total 5 results

1. Reduced-Scale Shake Table Testing of Seismic Behaviors of Slurry Cutoff Walls

Author

Xiao, Ming, primary, Ledezma, Martin, additional, and Wang, Jintai, additional

Published

2016

2. Improved shake table tests on the seismic performance of slurry walls

Author

Ledezma, Martin and California State University, Fresno. Lyles College of Engineering. Department of Civil and Geomatics Engineering

Abstract

Slurry walls have been widely used for retrofitting earthen dams and levees. Slurry wall properties, such as strengths and permeability are well known, but there is very little research on their seismic performance. This research includes shake table testing of two common types of slurry walls: sand-cement-bentonite (SCB), and cement-bentonite (CB) walls. Reduced-scale slurry walls with dimensions of 150 cm (long) x 160 cm (tall) x 20 cm (thick) were constructed inside a rigid, steel box that was mounted on top of a shake table. Boundary conditions in the shake table tests were addressed; and dynamic scaling laws were followed to scale the seismic motions. Specimens were tested under two seismic excitations: modified Loma Prieta earthquake motions and sinusoidal sweep frequency motions from 0.20 Hz to 6 Hz. Accelerations, horizontal deflections, dynamic vertical deformations, and dynamic soil pressures were recorded using accelerometers, linear potentiometers, linear variable differential transducers, and stress cells, respectively. The walls were inspected for damages after testing. Unconfined compression tests were performed on slurry wall specimens to further evaluate the effects of seismic stresses on the strengths of slurry walls. The test results revealed the seismic responses and failure mechanisms of slurry walls under seismic events.

Published

2013

3. Aedes (Stegomyia) albopictus (Skuse) (Diptera: Culicidae) in the states of Monagas and Guarico, Venezuela

Author

Quinto Frontado, Carlos, Frontado, Hortencia, Ledezma, Martin, Polanco Rodríguez, Gilfredo, and Naranjo, José F

Subjects

Dengue, albopictus, Aedes, Guárico, Monagas, Venezuela, Aedes albopictus

Abstract

Aedes albopictus (Skuse, 1894), vector responsable de la transmisión del dengue y otros virus es por primera vez reportado en las localidades de Voladero del estado Monagas al oriente del país y en las localidades 5 de Julio y Banco Obrero en el estado Guárico. Se realizaron colectas de adultos posándose sobre humanos y fases inmaduras en un recipiente plástico y en plantas de la familia Araceae con abundante materia orgánica, en el solar de una vivienda. Este reporte nos alerta para extremar la vigilancia entomológica a nivel nacional, determinar la distribución del vector en el país y diseñar estrategias de control. Aedes albopictus (Skuse, 1894), vector responsible for the transmission of dengue and other viruses, is first recorded in the locality of Voladero, Monagas state, east of the country and in the towns July 5 and Banco Obrero, in the state Guárico. Collections were performed for adult human landing and for immature stages in a plastic container and in plants of the family Araceae with abundant organic matter, on the back yard of a house. This report alerts us to exercise extreme national entomological surveillance to determine the vector distribution in the country and control strategies.

Published

2013

4. Shear Resistance of Tire-Derived Aggregate Using Large-Scale Direct Shear Tests

Author

Xiao, Ming, primary, Ledezma, Martin, additional, and Hartman, Corbin, additional

Published

2015

5. Reduced-Scale Shake Table Testing of Seismic Behaviors of Slurry Cutoff Walls.

Author

Ming Xiao, Ledezma, Martin, and Jintai Wang

Subjects

*CEMENT-bentonite mixtures, *SHAKING table tests, *SEISMIC response, *BENTONITE slurry, *SANDY soils

Abstract

This paper presents a reduced-scale shake table test on the seismic responses of a section of soil-cement-bentonite (SCB) slurry cutoff wall. The geometric scale of slurry wall width was chosen as 1:3 (model:prototype). A section of a slurry wall with dimensions of 150 cm long, 20 cm wide, and 160 cm tall was constructed and tested on a one-dimensional shake table. A 187 cm (long) × 150 cm (wide) × 180 cm (tall) steel-frame box was anchored on the shake table and contained the slurry wall and sandy soil that was compacted on both sides of the wall. Spring-supported wood panels were installed at the bottom and on two sides of the box to create a boundary that has the stiffness of dense sand. The slurry wall and the confining soil were instrumented with accelerometers, LVDT, linear potentiometers, and dynamic soil stress gauges to respectively record the accelerations, vertical and horizontal deformations of the wall, and transient dynamic soil pressures on the wall during the simulated seismic excitations. Dynamic scaling laws were implemented in the shake table testing to scale the seismic excitation. Two shake table tests were conducted using the 1997 Loma Prieta earthquake motions and sinusoidal sweep-frequency motions (from 0.2 to 6.0 Hz), respectively. The shake table tests provided a preliminary understanding of the seismic performances of the SCB slurry wall in levees and earthen dams. [ABSTRACT FROM AUTHOR]

Published

2016