Mostrando entradas con la etiqueta dalle mixte. Mostrar todas las entradas
Mostrando entradas con la etiqueta dalle mixte. Mostrar todas las entradas

lunes, 12 de enero de 2009

Numerical modeling of pull out test for composite slabs using steel deck

Melchor López Ávila
Puerto Padre, Cuba
melchor@uclv.edu.cu, melchor_bia@yahoo.com

Rafael Larrúa Quevedo
Carlos A. Recarey Morfa


ABSTRACT

Numerical modeling is used to reproduce pull out tests that are carry out at composite slabs in small scale to determine shear longitudinal forces between metallic sheet and concrete slab. Is been considered an elastic- plastic model for the steel and a plastic damage model for the concrete. Is used ABAQUS/Implicit 6.6 Commercial Code to simulate numerically using FEA the pull out test. Is conceptually defined the modeling and the numerical model calibration taking as basis experimental studies. Are established the parametric study basis and an analytic method to estimate longitudinal shear.


1. INTRODUCTION

Composite slabs are very useful structural forms, where are combined steel deck and concrete block for working together. Usually, structural fail occur when is broken the longitudinal shear resistance between concrete block and steel deck, and slip is producing, losing composite work of these materials. Chemical bond, friction and mechanical interaction are the main factors that make up longitudinal shear resistance between steel deck and concrete slab.

To characterize composite slabs usually are carry out experimental tests, loading singles spam slabs to quantify flexion fail (EN 1994-1-1, 2004, NRMC 082, 2004, ASTM E8-00b, 2001, CSSBI S3-2002, 2003), or pull out small specimens of cyclic rib width to estimate longitudinal shear resistance between reinforced concrete slab and metallic sheet (Daniels, 1988, Guex, 2002, Edder, 2003).

Numerical modeling of composite slabs had been analyzed by many researchers (Widjaja, 1997, Veljkovic, 1998, Schuurman, 2000, Edder, 2003, Abdullah, 2004, Ferrer, 2006, Mistakidis, 2007). Using different forms, but always try to reproduce longitudinal shear effect. Are outstanding the Abdullah and Ferrer studies results. Although Mistakidis is more recent research, he focused in bending behavior of there composite structures.

Abdullah use ABAQUS/Explicit commercial code, and a configuration of sheet without embossments. He represented numerically a steel deck rib, along the complete length, using shell finite elements for steel deck, and three-dimensional solid FE for concrete slab (Abdullah, 2004). Interaction between these surfaces and embossments work is simulated using connectors with lineal rigidity. These simplifications avoid realize studies of embossments geometry contribution in the mechanical interaction, as to as local distribution of tensions in embossments wall and closeness. With these assumptions in the modeling of the problem, is not possible estimate with trustworthiness the chemical bond, friction and mechanical interaction phenomena.

Ferrer use ANSYS commercial code and he assumed Coulomb rigid friction model without initial adherence, dynamic effects or top tangential tension (Ferrer, 2006). For represent the steel that conform the sheet, is employed a linear elastic plastic model and the concrete of the slab is simulated considering it as an infinity rigid surface, that restrict evaluate failure mechanisms in the concrete, as breach that is noted during experimental studies. The author takes advantage of geometrical symmetry cooperatively with loads application form in the test, as to as the cyclic embossments patron along the specimen length. He shapes the steel deck using finite elements of shell with reduced integration family, considering the sheet modeling by your axis. The load is represented by means of a longitudinal displacement imposed over all nodes of each of boundaries transversal at sliding direction (Ferrer, 2006). This simplification feigns avoid evaluate completely local bending that can appear in edge sheets due to loads application respect real test.

In this work is developed a numerical model for ABAQUS/Implicit commercial code that take advantage of Ferrer’s symmetry proposals, but with the novelty of employ damage constitutive model for the concrete material. To modeling loads, must be simulated the pull effect y the self- weight effect taking into account the reference position in which is practice the test (Figure 1). The traction force is represented across uniform load (in area) over side of concrete block transversal at displacement direction. To simulate self- weight loads are applied laterally al concrete block (Figure 1). As steel deck many as concrete block are modeling geometrically using three- dimensional finite elements.
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Software: Diseño Total Losa Compuesta

(Total Design Composite Slab)

Autor:
Melchor López Ávila
Puerto Padre, Cuba
melchor@uclv.edu.cu, melchor_bia@yahoo.com

Diseño Total Losa Compuesta.xls (545 KB)

Hoja de cálculo Microsoft EXCEL que realiza:

- Diseño de losa compuesta (losa mixta) según la norma cubana (NC 082:2004)
- Determinación de parámetros de ensayo m-k por varios métodos
- Estimación de optimización geométrica de embuticiones para láminas de perfilado abierto
- Estimación de la capacidad resistente de losas compuestas según método de fluencia
- Estimación de la capacidad resistente de losas compuestas según Apéndice D de la ASCE
- Graficador a partir de coordenadas
- Interpolador lineal de 150 entradas y 3 niveles, con fórmulas de relación entre niveles

En el paquete se pueden incluir además los ficheros Microsoft WORD:
Ensayo a Escala Natural.doc (461 KB)
Ensayo Pull Out.doc (513 KB)
Manual de Instalación.doc (1 726 KB)


Total Design Composite Slab.xls (545 KB)

Microsoft EXCEL spread sheets for:

- Composite slabs design according to Cuban Standard (NC 082:2004)
- Test parameters estimating for m-k test, using some methods
- Estimating of geometrical optimization of the embossments for open web sheets
- Estimating strength capacity of composite slabs using fluency method
- Estimating strength capacity of composite slabs using Appendix D of ASCE
- Plotter from coordinates
- Linear Interloping with 150 input and 3 levels, using relationship formulae between levels

Pack can include too Microsoft WORD files:
Natural Scale Flexion Tests.doc (461 KB)
Pull Out Tests.doc (513 KB)
Installing Manual.doc (1 726 KB)

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sábado, 10 de enero de 2009

Estimación de la resistencia al cortante longitudinal en losas compuestas (losas mixtas)

Estimating of longitudinal shear resistance
in composite slabs with steel deck


Ing. Melchor López Ávila
Universidad Central de Las Villas, Cuba.
melchor@uclv.edu.cu, melchor_bia@yahoo.com
(Revista Ingeniería de Construcción [En edición])

Dr. Ing. Rafael Larrúa Quevedo (**),
Dr. Ing. Carlos A. Recarey Morfa (***)


RESUMEN
Utilizando el método de elementos finitos se reproduce numéricamente el ensayo de tracción que usualmente se verifica en probetas de losas compuestas con lámina colaborante (losas mixtas) para estimar la resistencia al deslizamiento por cortante longitudinal entre las superficies de la lámina metálica y el bloque de hormigón. Se asume un modelo elasto- plástico para el comportamiento del acero, y modelo de daño plástico para el hormigón. Para construir la modelación numérica se utiliza el código comercial ABAQUS/Implicit 6.6. Se sientan las bases para la realización de un estudio paramétrico del problema y el desarrollo de un método de estimación analítico del cizallamiento longitudinal.


ABSTRACT
Using finite elements method is reproduced numerically pull out test that usually is practice in composite slabs with steel deck to estimate slip resistance due to longitudinal shear forces between steel deck and concrete block surfaces. Is been assume an elastic- plastic model to represent steel behavior, and a plastic damage model for concrete material. To represent numerical modeling is used ABAQUS/Implicit 6.6 commercial code. Basis are been establish to do a parametric study of the problem, and to developing analytic method to calculate longitudinal shear.
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Losas compuestas (losas mixtas): métodos de experimentación y diseño

(Estado del arte de la modelación, experimentación y métodos de diseño de losas compuestas (losas mixtas) de hormigón y acero con lámina colaborante)

Melchor López Ávila.
Ingeniero civil. Puerto Padre, Cuba
melchor_bia@yahoo.com
http://www.monografias.com/trabajos66/losas-compuestas-metodos-experimentacion-diseno/losas-compuestas-metodos-experimentacion-diseno.shtml

Resumen
Se conceptualiza el término de losa compuesta (losa mixta, resaltando las ventajas y campos de aplicación de esta tipología estructural. Se explican, en orden aproximadamente cronológico, los más relevantes estudios experimentales llevados a cabo con sus conclusiones parciales, así como los métodos de cálculo y diseño principales aceptados por la comunidad científica internacional.

Índice
Resumen 1
1 Introducción 1
1.1 Concepto 1
1.2 Ventajas como sistema estructural 2
1.3 Campos de utilización 2
2 Estudios experimentales 3
2.1 Primeros pasos 3
2.2 Ensayo de flexión en escala natural 3
2.3 Tres métodos semi- empíricos de diseño. Parámetros m-k 4
2.4 Diseño de losas de varias luces 6
2.5 Mecánica de fallo 8
2.6 Ensayos en escala reducida (pull out) 9
2.7 Efecto de las embuticiones de la lámina 10
3 Métodos de diseño 11
3.1 Métodos de diseño de la ASCE 11
3.1.1 Método analítico de fluencia 11
3.1.2 Cálculo del fallo por flexión 12
3.1.3 Cálculo del fallo por cortante longitudinal 14
3.2 Métodos de cálculo del Eurocode 15
3.2.1 Método de conexión parcial de cortante (PSC) 15
3.3 Otros métodos 16
3.3.1 Métodos de fuerza 16
3.3.2 Método de Calixto 17
3.3.3 Método de interacción parcial modificado 17
3.4 Método de elementos finitos 18
3.5 Método simplificado de Crisinel 18
Conclusiones 19
Bibliografía 20
Índice 23
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