High strain dynamic testing

High strain dynamic testing

High strain dynamic testing is a method of testing deep foundations to obtain information about their capacity and integrity, and in some cases, to monitor their installation. It is codified by D4945-00 - Standard Test Method for High-Strain Dynamic Testing of Piles.

High strain dynamic testing encompasses dynamic pile monitoring, applicable only to driven piles, and dynamic load testing, which is applicable to any type of deep foundation.

The origins of these testing methods date to research conducted in the 1960s and 1970s at what is now known as Case Western Reserve University, with funding of the Ohio Department of Transportation. The 1972 paper Soil Resistance Predictions from Pile Dynamics, by Rausche, F., Moses, F., Goble, G. G., published by the Journal of the Soil Mechanics and Foundations Division, American Society of Civil Engineers transformed the academic research into a process embraced by the engineering community.

High strain dynamic testing consists of estimating soil resistance and its distribution from force and velocity measurements obtained near the top of a foundation impacted by a hammer or drop weight. The impact produces a compressive wave that travels down the shaft of the foundation.

A pair of strain transducers obtains the signals necessary to compute force, while measurements from a pair of accelerometers are integrated to yield velocity. These sensors are connected to an instrument (such as a pile driving analyzer), that records, processes and displays data and results.

As long as the wave travels in one direction, force and velocity are proportional and related by the expression F = Zv, where:
*Z = EA/c is the pile impedance
*E is the pile material modulus of elasticity
*A is the cross sectional area of the pile
*c is the material wave speed at which the wave front travels

The wave assumes an opposite direction (a reflection) when it encounters soil resistance forces along the shaft or at the toe. These reflections travel upward along the shaft and arrive at the pile top at times that are related to their location along the shaft. The sensors near the pile top take measurements that translate what is happening to the traveling waves, and make it possible to estimate soil resistance and its distribution.

The data obtained in this fashion permits the computation of total soil resistance, which includes both static and viscous components. The dynamic component is computed as the product of the pile velocity times the damping factor (a soil parameter related to soil grain size). The static component is the total soil resistance minus the dynamic component).

Dynamic load testing takes a further step in analyzing the data and computing static capacity and resistance distribution.

Dynamic pile monitoring takes advantage of the fact that, for driven piles, it is possible to compute the energy delivered to the pile, compression stresses at the pile top and toe and tension stresses along the shaft. Pile integrity can also be evaluated.

ee also

*Low strain dynamic testing

References

*Cannon, J.G., September, 2000. "The Application of High Strain Dynamic Pile Testing to Screwed Steel Piles." in: J. Beim & S. Niyama (Eds), Application of Stress-wave Theory to Piles: Quality Assurance on Land and Offshore Piling: © Taylor & Francis 2000. Used with permission; 393-398.


Wikimedia Foundation. 2010.

Игры ⚽ Поможем написать курсовую

Look at other dictionaries:

  • Dynamic load testing — of piles is a fast and effective method of assessing foundation bearing capacity that requires instrumenting a deep foundation with accelerometers and strain transducers and analyzing data collected by these sensors. The procedure is based on the …   Wikipedia

  • Dynamic strain aging — Although sometimes dynamic strain aging is used interchangeably with the Portevin–Le Chatelier effect (or serrated yielding), dynamic strain aging refers specifically to the microscopic mechanism that induces the Portevin–Le Chatelier effect.… …   Wikipedia

  • Pile integrity test — A pile integrity test (also known as low strain dynamic test, sonic echo test, and low strain integrity test) is one of the methods for assessing the condition of piles or shafts. It is cost effective and not very time consuming.The test is based …   Wikipedia

  • Broad Run High School — Infobox Education in the United States name= Broad Run High School imagesize= 200px motto= Broad Run High School Entrance (2007) streetaddress= 21670 Ashburn Road city= Ashburn state= Virginia zipcode= 20147 url= http://www.loudoun.k12.va.us/brhs …   Wikipedia

  • Diffraction topography — (short: topography ) is an X ray imaging technique based on Bragg diffraction. Diffraction topographic images ( topographs ) record the intensity profile of a beam of X rays (or, sometimes, neutrons) diffracted by a crystal. A topograph thus… …   Wikipedia

  • Shaped charge — Sectioned high explosive anti tank round with the inner shaped charge visible …   Wikipedia

  • United States — a republic in the N Western Hemisphere comprising 48 conterminous states, the District of Columbia, and Alaska in North America, and Hawaii in the N Pacific. 267,954,767; conterminous United States, 3,022,387 sq. mi. (7,827,982 sq. km); with… …   Universalium

  • Earth Sciences — ▪ 2009 Introduction Geology and Geochemistry       The theme of the 33rd International Geological Congress, which was held in Norway in August 2008, was “Earth System Science: Foundation for Sustainable Development.” It was attended by nearly… …   Universalium

  • Pressure measurement — The construction of a bourdon tube gauge, construction elements are made of brass Many techniques have been developed for the measurement of pressure and vacuum. Instruments used to measure pressure are called pressure gauges or vacuum gauges. A… …   Wikipedia

  • France — /frans, frahns/; Fr. /frddahonns/, n. 1. Anatole /ann nann tawl /, (Jacques Anatole Thibault), 1844 1924, French novelist and essayist: Nobel prize 1921. 2. a republic in W Europe. 58,470,421; 212,736 sq. mi. (550,985 sq. km). Cap.: Paris. 3.… …   Universalium

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”