Phosphorous-31 NMR Studies of MnRoad Test Track Cells

Phosphorous-31 NMR Studies of MnRoad Test Track Cells

Extensive research has been performed to determine the relationship between polyphosphoric acid (PPA) and hydrated lime in bitumen pavement mixes, but the fate of PPA in the paved road has not been determined. Perhaps as important, the mechanism of stiffening by PPA is not fully understood. Laborato...

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Bibliographic Details
Published in:Road materials and pavement design Vol. 12; no. 4; pp. 931 - 944
Main Authors: Schuster, William C., Wolf, Janet M., Miknis, Francis P.
Format: Journal Article
Language:English
Published: Paris Taylor & Francis Group 01-01-2011
Lavoisier
Subjects:
Acids
Additives
Aggregates
Antistrip
Applied sciences
Bitumen. Tars. Bituminous binders and bituminous concretes
Buildings. Public works
Exact sciences and technology
FTIR
Hydrated Lime
Materials
MnRoad
NMR
Nuclear magnetic resonance
Orthophosphoric Acid
Phosphate esters
Polyphosphoric Acid
Road construction. Pavements. Maintenance
Road test: methods, equipments and results
Studies
Transportation infrastructure
Material composition
Hydrated lime
Pavement
Road construction
Construction materials
Measurement result
NMR spectrometry
Experimental study
Orthophosphoric Acid
NMR
Polyphosphoric acid
FTIR
Road test
Antistrip
Fourier-transformed infrared spectrometry
MnRoad
Bituminous mixture
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Summary:Extensive research has been performed to determine the relationship between polyphosphoric acid (PPA) and hydrated lime in bitumen pavement mixes, but the fate of PPA in the paved road has not been determined. Perhaps as important, the mechanism of stiffening by PPA is not fully understood. Laboratory studies have shown that PPA and hydrated lime react in bitumen to form calcium phosphate salts; however, studies have not been performed on samples from an actual road mix. In this study, samples from Cells 33, 34, and 79 of the MnRoad Low Volume Pavement Test Track have been used as model pavements to determine the impact of hydrated lime when used as an antistrip additive in conjunction with PPA modified bitumen. The cells contain PPA, hydrated lime, a phosphate ester antistrip agent, and polymer. Samples of loose mix from the cells were extracted and separated into fractions of binder, fines, and bulk aggregate. Solid and liquid state 31 P NMR measurements were then made on the separated fractions. Phosphorous NMR signals were present for all solid fractions of the extraction. Most of the signal was detected in the centrifuge fines as calcium phosphate, and little or no liquid state signal was detected in the extracted binder. These findings indicate that in the MnRoad cells, PPA reacted with hydrated lime to form mainly calcium phosphates. Also, a solid-state NMR signal that had a small chemical shift anisotropy was observed in the extracted binder and is attributed to the product from the reaction of Innovalt-W and hydrated lime.
ISSN:1468-0629
2164-7402
DOI:10.1080/14680629.2011.9713900