Development of Laboratory Test Methods to Replace the Simulated High-Temperature Grout Fluidity Test, Summary: Fid-Bau Portal

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Development of Laboratory Test Methods to Replace the Simulated High-Temperature Grout Fluidity Test, Summary

R.H Hamilton

In this project, University of Florida researchers developed a replacement for the HTGF test using a dynamic shear rheometer (DSR). Several DSR methods and geometries were evaluated, leading to the adoption of the apparent viscosity test (AVT) with a cup and ribbon geometry. The shear rate (50 s-1) used was based on the literature and on the calculated shear rate at a flow cones nozzle.

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Development of Laboratory Test Methods to Replace the Simulated High-Temperature Grout Fluidity Test, Summary

R.H Hamilton

In this project, University of Florida researchers developed a replacement for the HTGF test using a dynamic shear rheometer (DSR). Several DSR methods and geometries were evaluated, leading to the adoption of the apparent viscosity test (AVT) with a cup and ribbon geometry. The shear rate (50 s-1) used was based on the literature and on the calculated shear rate at a flow cones nozzle.

Development of Laboratory Test Methods to Replace the Simulated High-Temperature Grout Fluidity Test, Summary

R.H Hamilton

In this project, University of Florida researchers developed a replacement for the HTGF test using a dynamic shear rheometer (DSR). Several DSR methods and geometries were evaluated, leading to the adoption of the apparent viscosity test (AVT) with a cup and ribbon geometry. The shear rate (50 s-1) used was based on the literature and on the calculated shear rate at a flow cones nozzle.

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Titel:

Development of Laboratory Test Methods to Replace the Simulated High-Temperature Grout Fluidity Test, Summary

Beteiligte:

R.H Hamilton (Autor:in)

Erscheinungsdatum:

2014

Format / Umfang:

1 pages

Medientyp:

Report

Format:

Keine Angabe

Sprache:

Englisch

Schlagwörter:

Construction Equipment, Materials, & Supplies , Highway Engineering , Grouting , Viscosity , Bridges , Fluidity , Laboratory tests , Mixing , Post tensioning , Rheology , Shear properties , Tendons , High temperature grout fluidity(HTGF)

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