Prestressed concrete General – Materials – Prestressing losses

Add to my library

C2360 V2 Article

Prestressed concrete General – Materials – Prestressing losses

Author : Emmanuel BOUCHON

Publication date: February 10, 2017 | 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

ABSTRACT

The invention of prestressed concrete by Eugène Freyssinet revolutionized the art of construction in the 20th century by opening up previously inaccessible areas to concrete structures. The prestressing is carried out by high-strength tendons that are tensioned, either before concreting (pre-tension), or on the set concrete (post-tension). This article outlines the principles of prestressed concrete and the basics of concrete structure design according to the latest standards (Eurocodes). It goes on to consider the properties of the materials used, before presenting components and installation techniques. Finally, it details the various phenomena causing tension losses in the tendons, and gives an example of calculation.

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

Read the article

AUTHOR

  • Emmanuel BOUCHON : Engineer General of Bridges, Waterways and Forests - French Ministry of the Environment, Energy and Sea - Professor of prestressed concrete at École nationale des ponts et chaussées and Centre des hautes études de la construction

 INTRODUCTION

While the origins of many techniques are often uncertain and controversial, the invention of prestressed concrete is unambiguously known, since only one man, Eugène Freyssinet, can legitimately lay claim to it. It was he who, in 1908, designed and built the tie rod for the Le Veurdre test arch, the indisputable ancestor of all prestressed concrete structures, which was lost during the First World War and then found by chance in 1991 in a private garden near Moulins. It was he who, in 1928, registered the first patents on anchoring by adhesion, at the origin of prestressing by pre-tensioning, then who, within the forclum company, developed all the techniques enabling its effective implementation (structure of molds, pre-stretching of wires, dewatering and steaming of concretes...) for the production of electricity poles. He also invented the first operational post-tensioning anchoring system and associated jack (patented in 1939)...

Although Eugène Freyssinet was a remarkable builder, a pioneer with a vivid imagination, a remarkable experimenter and observer, a hard-working and demanding man, he never devoted much time to publishing his ideas or, above all, to popularizing them by structuring and detailing them in such a way as to facilitate their appropriation by as many people as possible. It is to the credit of a few of his close collaborators, including Yves Guyon and Pierre Lebelle, that he made all these new concepts accessible to the engineering community, founded a coherent theory and developed simple rules for pre-dimensioning.

The present article and the [C 2 377] article are modestly in line with this approach. Their scope is limited to the prestressing by tendons of concrete structures essentially made up of beams. It focuses on the dimensioning and constructive provisions of these structures. Information on implementation methods and techniques is given insofar as it is useful for calculation and detailed design.

Since the work of Guyon and Lebelle, design principles and methods have remained unchanged. On the other hand, materials, both steel and concrete, have progressed considerably, as can be seen from the French and European standards that apply to them. Calculation and justification rules have also undergone significant changes, with the French rules giving way to the Eurocodes. This article covers the latest developments in these standards, and in particular in Eurocode 2, which deals with design rules and constructive provisions for concrete constructions.

After showing how to prestress a structure and evaluate its effects (§

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?


KEYWORDS

Concrete   |   civil engineering   |   building materials

Ongoing reading
Prestressed concrete General – Materials – Prestressing losses

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

Fondations superficielles

Les fondations superficielles permettent la transmission des efforts induits par un ouvrage au sol, qu’il...

Chaussées composites : revêtement béton sur fondation en grave-bitume

Un nouveau concept de chaussée en béton a été imaginé en France vers 1995, baptisé « Chaussées compo...

Présentation du béton armé

Cet article est le premier d’une série consacrée au béton armé. Il a pour objectif de faire une brève pré...

WhitePaper
17 March 2020
Les bétons auto-plaçants

Les bétons auto-plaçants constituent la dernière évolution en date des bétons utilisés pour la construction d’ouvrages de bâtiment et de génie civil

Tous les livres blancs
Article Un trottoir anti-smog nettoyant l’air
22 March 2015
Un trottoir anti-smog nettoyant l’air

Bottrop (Rhénanie du Nord, Westphalie) est une ville modèle du développement durable en Allemagne, avec des objectifs ambitieux de réduction des émissions de CO...

Toutes les actualités
Contact us