Overview
- Demonstrates practical application with over 2,000 tests, ensuring relevance and effectiveness in various scenarios
- Presents a non-destructive vibration analysis method for calculating the internal tension force of the tie rods
- Covers various aspects including wave analysis, steel evaluation, tension loss, re-tensioning, and practical examples
- This book is open access, which means that you have free and unlimited access
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About this book
This open access book introduces a non-destructive vibration analysis method for calculating the internal tension force of tested tie rods. This method was formalized in 2003 and patented after two years of investigation, with the patent expiring in 2005. The objective of the book is to present this method through numerous concrete examples. It covers the theory and principles of instrumentation, explaining how vibratory responses are analyzed to calculate the free and total lengths of the tie rod, as well as its diameter, which includes the reinforcement and its grout. The data obtained from this method can be utilized to:
- Verify that tie rods adhere to drawings
- Resize tie rods
A notable strength of this book lies in demonstrating the relationship between dynamic stiffness and the tension force of the tie rod, along with the calibration method using static tensile tests. However, performing static tensile tests at heights poses difficulties due to equipment weight, and there is a genuine risk of failure, especially for older tie rods. The book addresses important aspects such as the uncertainty of results and sampling.
The examples provided in the book primarily stem from tests conducted in Brazil, where more than 2,000 tie rods were tested over a two-year period on motorway and railway retaining walls. In practical terms, this amounts to 16,000 non-destructive tests as each tie rod is tested eight times. These aging structures, in existence for several decades, exhibit load losses ranging from 1% to 5.5% per year during these periods. The book acknowledges the observation of cyclic load effects on these reinforcements, which warrant further investigation.
In one of the tested walls, a limited number of tie rods were re-tensioned. Retaining wall managers increasingly employ this method for maintenance diagnostics. It allows for a representative sample to be taken, providing insight into the existing conditions.
Keywords
Table of contents (20 chapters)
Authors and Affiliations
About the author
Jean-Jacques Rincent
24/02/1949
Doctor of Civil Engineering (INSA of Toulouse)
July 1993 / Present:
Chairman of Rincent BTP Services
4 bis rue du Bois Briard
91080 COURCOURONNES
210 employees, including 30% engineers
€19.5 million turnover
ANRT - Former member of the board of directors
Research and development:
- Non-destructive testing: Ground anchors, Radar for pavements
- Procedure for analyzing the bitumen content of asphalt mixes
- Portable Dynaplaque
- Elaboration of a stripping procedure linked to the calculation of the dynamic stiffness with the University of Evry-Saclay
April 1983 / July 1993:
Director of the Geomechanics Department at the Experimental Center for Building and Public Works
September 1981 – April 1983:
Associate Assistant Professor, Polytech Lille, Civil Engineering section
December 1974 / September 1981:
French Ministry of Cooperation, teacher at the Civil Engineering Department of the National Engineering School of LIBREVILLE, Gabon. The school is affiliated with INSA of Toulouse.
Bibliographic Information
Book Title: Ground Anchors
Book Subtitle: Tension Force—Vibratory Analysis
Authors: Jean-Jacques Henri Rincent
DOI: https://doi.org/10.1007/978-981-97-4414-5
Publisher: Springer Singapore
eBook Packages: Engineering, Engineering (R0)
Copyright Information: The Editor(s) (if applicable) and The Author(s) 2024
Hardcover ISBN: 978-981-97-4413-8Published: 01 August 2024
Softcover ISBN: 978-981-97-4416-9Due: 15 August 2025
eBook ISBN: 978-981-97-4414-5Published: 31 July 2024
Edition Number: 1
Number of Pages: XI, 159
Number of Illustrations: 32 b/w illustrations, 168 illustrations in colour
Topics: Mechanical Statics and Structures, Mechanical Engineering, Classical Mechanics