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Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials (2013)

Chapter: Appendix I - ATR FTIR Spectra

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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Suggested Citation:"Appendix I - ATR FTIR Spectra." National Academies of Sciences, Engineering, and Medicine. 2013. Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials. Washington, DC: The National Academies Press. doi: 10.17226/22770.
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Below is the uncorrected machine-read text of this chapter, intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text of each book. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.

111 A p p e n d i x i ATR FTIR Spectra Structural Coatings Wave number [1/cm] Ab so rb an ce Figure I.1. Baseline-corrected attenuated total reflectance (ATR) Fourier transform infrared (FTIR) spectra of Carbozinc 859 components.

112 epoxy pavement Markings Wave number [1/cm] Ab so rb an ce Figure I.2. Baseline-corrected ATR FTIR spectra of Scotchkote components. Wave number [1/cm] Ab so rb an ce Figure I.3. Baseline-corrected ATR FTIR spectra of Epoplex LS50 Part B.

113 Waterborne Traffic paints Wave number [1/cm] Ab so rb an ce Figure I.4. Baseline-corrected ATR FTIR spectra of ready-mixed white and yellow Epoplex LS50 pavement marking. Wave number [1/cm] A bs or ba nc e Figure I.5. Baseline-corrected ATR FTIR spectra of 3M All Weather yellow paint.

114 Wave number [cm−1] Ab so rb an ce Figure I.7. Baseline-corrected ATR FTIR spectra of polyacrylic waterborne Ennis white paint. Figure I.6. Baseline-corrected ATR FTIR spectra of Aquaspar waterborne white paint. Wave number [1/cm] Ab so rb an ce

115 epoxy Adhesives Wave number [1/cm] A bs or ba nc e Figure I.8. Baseline-corrected ATR FTIR spectra of Sikadur31 components. Wave number [1/cm] A bs or ba nc e Figure I.9. Baseline-corrected ATR FTIR spectra of Ultrabond1100 components.

116 Chemical Admixtures for pCC Wave number [1/cm] Ab so rb an ce Figure I.10. Baseline-corrected ATR FTIR spectra of Accelguard 80 set accelerator. Wave number [1/cm] Ab so rb an ce Figure I.11. Baseline-corrected ATR FTIR spectra of ADVA 190 superplasticizer.

117 Wave number [1/cm] Ab so rb an ce Figure I.12. Baseline-corrected ATR FTIR spectra of Air 200 air entrainer. Wave number [1/cm] Ab so rb an ce Figure I.13. Baseline-corrected ATR FTIR spectra of Retarder 75 set retarder.

118 Curing Compounds for pCC Wave number [1/cm] Ab so rb an ce Figure I.14. Baseline-corrected ATR FTIR spectra of W. R. Meadows’s Sealtight 1100-CLEAR. Wave number [1/cm] Ab so rb an ce Figure I.15. Baseline-corrected ATR FTIR spectra of ChemMaster’s Safe-Cure 1000.

119 Wave number [cm−1] Figure I.16. Baseline-corrected lab and field ATR FTIR spectra of TAMMSCURE compared with Sealtight. polymer Modifiers for Asphalt Binders Wave number [cm−1] Ab so rb an ce [a u] Figure I.17. Baseline-corrected ATR FTIR spectrum of DuPont Elvaloy 4170 polymer.

120 Wave number [cm−1] Ab so rb an ce [a u] Figure I.18. Baseline-corrected ATR FTIR spectrum of Kraton D1101 SBS polymer. Wave number [cm−1] Ab so rb an ce [a u] Figure I.19. Baseline-corrected ATR FTIR spectrum of BASF’s Butonal SB latex polymer.

121 Antistripping Agents for Asphalt Wave number [1/cm] Ab so rb an ce Figure I.20. Baseline-corrected ATR FTIR spectra of Akzo Nobel’s Kling Beta. Figure I.21. Baseline-corrected ATR FTIR spectra of ArrMaz’s AD-here. Wave number [1/cm] Ab so rb an ce

122 Wave number [cm−1] Figure I.22. Comparison of the lab and field ATR FTIR spectra of ArrMaz’s AD-here. Wave number [1/cm] Ab so rb an ce Unmodified Asphalt Binders Figure I.23. Comparison of ATR FTIR spectra of PG 58-28 binders from different refineries.

123 Wave number [1/cm] Ab so rb an ce Figure I.24. Comparison of ATR FTIR spectra of PG 64-22 binders from different refineries. polymer-Modified Binders Wave number [1/cm] Ab so rb an ce Figure I.25. Typical ATR FTIR spectrum for PG 52-34 binder modified with 1.5 wt% styrene–butadiene rubber latex.

124 Wave number [1/cm] Ab so rb an ce Figure I.26. Comparison of the ATR FTIR spectra for PG 64-22 binders modified with 1, 3, and 6 wt% Kraton SBS. Wave number (cm-1) Ab so rb an ce Figure I.27. Comparison of the ATR spectra for virgin, RTFO-aged, and PAV-aged PG52-34 binder modified with 1.5 wt% SBR Latex.

125 Wave number (cm-1) Ab so rb an ce Figure I.28. Comparison of the ATR spectra for virgin, RTFO-aged, and PAV-aged PG58-28 binder modified with 3.3 wt% BASF Butonal. Wave number (cm-1) Ab so rb an ce Figure I.29. Comparison of the ATR spectra for virgin, RTFO-aged, and PAV-aged PG64-22 binder modified with 3 wt% Kraton SBS.

126 Wave number (cm-1) Ab so rb an ce Figure I.30. Comparison of the ATR spectra for virgin, RTFO-aged, and PAV-aged 64-28 binder modified with 3.3 wt% SBR Latex.

Next: Appendix J - Raman Spectra »
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TRB’s second Strategic Highway Research Program (SHRP 2) Report S2-R06B-RW-1: Evaluating Applications of Field Spectroscopy Devices to Fingerprint Commonly Used Construction Materials documents evaluation results of practical, portable spectroscopic equipment for in-situ analysis of a wide range of commonly used construction materials.

The report also includes proposed American Association of State Highway and Transportation Officials (AASHTO) standards of practice for the analysis of titanium content in traffic paints by X-ray fluorescence and identification of chemical admixtures by attenuated total reflectance.

An e-book version of this report is available for purchase at Amazon, Google, and iTunes.

The results of Renewal Project R06B, which produced SHRP 2 Report S2-R06B-RW-1, were incorporated into an electronic repository for practitioners, known as the NDToolbox, which provides information regarding recommended technologies for the detection of a particular deterioration. The NDToolbox was created by SHRP 2 Renewal Project R06A, which has released SHRP 2 Report S2-R06A-RR-1: Nondestructive Testing to Identify Concrete Bridge Deck Deterioration that identifies nondestructive testing technologies for detecting and characterizing common forms of deterioration in concrete bridge decks.

Renewal Project R06B is one of seven follow-on projects to SHRP Renewal Project R06 that produced SHRP 2 Report S2-R06-RW: A Plan for Developing High-Speed, Nondestructive Testing Procedures for Both Design Evaluation and Construction Inspection, which examines existing and emerging nondestructive evaluation (NDE) technologies and their current state of implementation to satisfy the NDE needs for highway renewal.

In conjunction with SHRP 2 Renewal Project R06B, a library of reference spectra for pure materials was created that may be used to help identify materials in the field. Due to the size of the files, the spectral library is available for download in two parts (Part 1 and Part 2) in ZIP format. The database consists of a series of files with fingerprinting number values and keys to the material labels. It supplements the suggest standards developed under this project and can be used by quality assurance/quality control specialists.

Spectral Library Disclaimer: These materials are offered as is, without warranty or promise of support of any kind, either expressed or implied. Under no circumstance will the National Academy of Sciences or the Transportation Research Board (collectively “TRB”) be liable for any loss or damage caused by the installation or operation of these materials. TRB makes no representation or warranty of any kind, expressed or implied, in fact or in law, including without limitation, the warranty of merchantability or the warranty of fitness for a particular purpose, and shall not in any case be liable for any consequential or special damages.

The R06B Project produced a pilot to document its preliminary implementation activities.

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