Interpretation of viscometer test results for polymer support fluids

Carlos Lam; Stephan A. Jefferis

doi:10.1061/9780784413449.043

Interpretation of viscometer test results for polymer support fluids

Carlos Lam, Stephan A. Jefferis

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

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Abstract

Polymer support fluids have been successfully used for the construction of bored piles (drilled shafts) and diaphragm walls for many years and yet, there is currently little guidance on the interpretation of their rheological properties from viscometer test results. In particular, there is confusion about the choice of an appropriate rheological model for this type of fluid. The use of oilfield units by some has also added to the confusion. To promote the use of SI units, this paper summarizes conversion factors that can be used to present viscometer data in a more uniform manner. Simple rheological concepts and instrument-specific equations are also given for those unfamiliar with the issues. Viscometer test results for two polymer fluids are then used to illustrate the application of the power-law model over the shear-rate range achievable with a typical direct-indicating viscometer. © 2014 American Society of Civil Engineers.

Original language	English
Title of host publication	Geotechnical Special Publication\|Geotech Spec Publ
Place of Publication	Reston, Virginia, USA
Publisher	American Society of Civil Engineers
Pages	439-449
Number of pages	10
ISBN (Print)	9780784413449
DOIs	https://doi.org/10.1061/9780784413449.043
Publication status	Published - 2014
Event	2014 GeoShanghai International Congress: Tunneling and Underground Construction - Shanghai Duration: 1 Jul 2014 → … http://ascelibrary.org/http://www.asce.org/

Conference

Conference	2014 GeoShanghai International Congress: Tunneling and Underground Construction
City	Shanghai
Period	1/07/14 → …
Internet address	http://ascelibrary.org/http://www.asce.org/

Keywords

polymer
support fluids
slurry
bored pile
drilled shaft

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10.1061/9780784413449.043

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title = "Interpretation of viscometer test results for polymer support fluids",

abstract = "Polymer support fluids have been successfully used for the construction of bored piles (drilled shafts) and diaphragm walls for many years and yet, there is currently little guidance on the interpretation of their rheological properties from viscometer test results. In particular, there is confusion about the choice of an appropriate rheological model for this type of fluid. The use of oilfield units by some has also added to the confusion. To promote the use of SI units, this paper summarizes conversion factors that can be used to present viscometer data in a more uniform manner. Simple rheological concepts and instrument-specific equations are also given for those unfamiliar with the issues. Viscometer test results for two polymer fluids are then used to illustrate the application of the power-law model over the shear-rate range achievable with a typical direct-indicating viscometer. {\textcopyright} 2014 American Society of Civil Engineers.",

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AB - Polymer support fluids have been successfully used for the construction of bored piles (drilled shafts) and diaphragm walls for many years and yet, there is currently little guidance on the interpretation of their rheological properties from viscometer test results. In particular, there is confusion about the choice of an appropriate rheological model for this type of fluid. The use of oilfield units by some has also added to the confusion. To promote the use of SI units, this paper summarizes conversion factors that can be used to present viscometer data in a more uniform manner. Simple rheological concepts and instrument-specific equations are also given for those unfamiliar with the issues. Viscometer test results for two polymer fluids are then used to illustrate the application of the power-law model over the shear-rate range achievable with a typical direct-indicating viscometer. © 2014 American Society of Civil Engineers.

KW - polymer

KW - support fluids

KW - slurry

KW - bored pile

KW - drilled shaft

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DO - 10.1061/9780784413449.043

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BT - Geotechnical Special Publication|Geotech Spec Publ

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ER -

Interpretation of viscometer test results for polymer support fluids

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Keywords

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