Building floors in steel and composite construction

Add to my library

C2645 V2 Article

Building floors in steel and composite construction

Author : Daniel BITAR

Publication date: November 10, 2003 | Lire en français

Add to my library Add to my library

Logo Techniques de l'Ingenieur You do not have access to this resource.
Request your free trial access! Free trial

Already subscribed?

Overview

Read this article from a comprehensive knowledge base, updated and supplemented with articles reviewed by scientific committees.

Read the article

AUTHOR

  • Daniel BITAR : Doctorate in Civil Engineering - INSA - Research and Development Project Manager at the Centre Technique Industriel de la Construction Métallique (CTICM) - Lecturer at the École nationale des ponts et chaussées

 INTRODUCTION

Floors form a rigid horizontal plane capable of :

  • support vertical loads (dead weight of various components and operating loads) and transmit these loads to the columns without damaging the finishing work;

  • transmit horizontal forces (such as wind or seismic forces) to vertical elements: stability bearings, portal columns, stairwells and/or rigid gables.

Other functions are of greater or lesser importance, depending on the building's purpose. These include the flexibility of vertical and horizontal passageways (ducts and various networks, and technical equipment), acoustic and thermal insulation, stability and fire resistance.

This article presents the different floor systems for buildings, showing how they work and their advantages and disadvantages.

The first part of this text deals with the design aspects, giving practical recommendations and orders of magnitude to enable the rapid and efficient definition of a preliminary floor design based on objective comparisons: mixed or unmixed floor, under-slab or integrated joists, honeycomb or lattice joists, etc. The second part deals with the design aspects, giving practical recommendations and orders of magnitude to enable the rapid and efficient definition of a preliminary floor design based on objective comparisons: mixed or unmixed floor, under-slab or integrated joists, honeycomb or lattice joists, etc.

In the second part of the text, the calculation of the fundamental frequency and acceleration vibration of composite floors will be developed. A simple method of application will be explained in order to arrive at a viable estimate of the vibration response of floors.

You do not have access to this resource.
Logo Techniques de l'Ingenieur

Exclusive to subscribers. 97% yet to be discovered!

You do not have access to this resource. Click here to request your free trial access!

Already subscribed?


Ongoing reading
Building floors in steel and composite construction

Article included in this offer

"The superstructure of the building"

( 128 articles )

Complete knowledge base

Updated and enriched with articles validated by our scientific committees

Services

A set of exclusive tools to complement the resources

View offer details

Dans les ressources documentaires

Conception et calcul des dalles mixtes acier-béton

Une dalle mixte, aussi appelée plancher collaborant, est un élément de construction des bâtiments métalli...

Eurocode 2. Béton armé - Formules et données utiles

Cet article regroupe les formules et données utiles à l’appropriation du contenu de l’Eurocode 2EC2. Cett...

Construction mixte acier-béton – Calcul des poutres mixtes de bâtiments - Partie 1 : poutres en T à âme pleine

Cet article traite du calcul aux états limites ultimes des poutres mixtes en T, isostatiques ou continues...

Tous les livres blancs
Toutes les actualités
Contact us