Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-27T08:18:18.891Z Has data issue: false hasContentIssue false
  • English
  • Français

Analyzing the influence of manufacturing conditions of reclaimed asphalt concrete on the characteristics of the asphalt binder: development of a gradual binder extraction method

Published online by Cambridge University Press:  09 May 2012

J. Navaro ,
D. Bruneau ,
I. Drouadaine ,
B. Pouteau ,
J. Colin  and
A. Dony
J. Navaro*
Affiliation:
Laboratoire TREFLE (UMR 8508), Arts et Métiers ParisTech – Bordeaux, Esplanade des Arts et Métiers, 33405 Talence Cedex, France EUROVIA, Centre de Recherche de Mérignac, 22 rue Thierry Sabine, 33703 Mérignac, France Laboratoire GREMACOR, École Spéciale des Travaux Publics, 28 avenue du président Wilson, 94234 Cachan, France
D. Bruneau
Affiliation:
Laboratoire TREFLE (UMR 8508), Arts et Métiers ParisTech – Bordeaux, Esplanade des Arts et Métiers, 33405 Talence Cedex, France
I. Drouadaine
Affiliation:
EUROVIA, Centre de Recherche de Mérignac, 22 rue Thierry Sabine, 33703 Mérignac, France
B. Pouteau
Affiliation:
EUROVIA, Centre de Recherche de Mérignac, 22 rue Thierry Sabine, 33703 Mérignac, France
J. Colin
Affiliation:
Laboratoire GREMACOR, École Spéciale des Travaux Publics, 28 avenue du président Wilson, 94234 Cachan, France
A. Dony
Affiliation:
Laboratoire GREMACOR, École Spéciale des Travaux Publics, 28 avenue du président Wilson, 94234 Cachan, France
*
ae-mail: [email protected]
Get access

Abstract

When asphalt concrete is manufactured incorporating a high percentage (almost 70%) of reclaimed materials from the deconstruction of road surfaces under renovation, and when the corresponding production device is designed specifically to reduce the energy input need (lowering the production temperature), the resulting manufacturing process contributes to the protection of the environment and reduces production costs. However, to meet the quality requirements of the finished product, virgin materials of appropriate quality and quantity must also be added (mineral aggregates and new asphalt binder) and control systems set up to quantify and optimize the parameters involved (thus avoiding the guess work which still often prevails today). It was for this reason that a new experimental technique described here was devised, which will ultimately be used in asphalt concrete production plants. The technique involves lixiviating reclaimed asphalt concrete using a chlorinated solvent; the resulting solute is collected gradually, then the mixture of binders (virgin and reclaimed asphalt concrete) can be characterized and their mass fractions quantified using a combination of UV and IR spectrometry. With this experimental technique we were able to assess the extent to which the reclaimed asphalt pavement binder participates in the agglomeration and cohesion of the reclaimed asphalt concrete. This assessment was made in terms of the main parameters in the production process, temperature of the materials and mixing time.

Type
Research Article
Information
The European Physical Journal - Applied Physics , Volume 58 , Issue 2 , May 2012 , 21001
Copyright
© EDP Sciences, 2012

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Berthier, J., Le recyclage en centrale des enrobés bitumineux: Note technique provisoire, SETRA-LCPC, 1982
Lesueur, D., J. Rheol. 2, 1 (2002)
Jullien, A., in Proc. of the 3rd Eurasphalt & Eurobitume Congress, Vienna, 2004, paper 368
Perez, F., in Proc. of the 3rd Eurasphalt & Eurobitume Congress, Vienna, 2004, paper 098
González-Leόn, J.A., in Proc. of the 88th TRB Annual Meeting, Washington DC, 2009, paper 09-1200
NF EN 13108-1:2006 Bituminous mixtures - Material specifications - Part 1: Asphalt concrete
Al-Qadi, I.L., Illinois Center for Transportation, Report ICT-R27-11, 2009Google Scholar
Van Der Kooij, J., in Proc. of the 1st Euroasphalt and Bitume Congress, Strasbourg, 1996, paper 5.137
Renken, P., Proc. of the 4th Euroasphalt and Eurobitume Congress, Copenhagen, 2008, paper 403-017
Renken, P., Proc. of the 3rd Euroasphalt and Eurobitume Congress, Vienna, 2004, paper 173
McDaniel, R.S., Anderson, R.M., NCHRP Project 9-12, 2001
Shah, A., Transp. Res. Rec. 1998, 103 (2007)CrossRef
Zearley, L.J., IOWA DOT, Report MLR 79-3, 1979Google Scholar
EN 12697-3:2005, Bituminous mixtures - Test methods for hot mix asphalt - Part 3: Bitumen recovery. Rotary evaporator
EN 1426:2000, Methods of tests for petroleum and its products. Bitumen and bituminous binders. Determination of needle penetration
Carpenter, S.H., Transp. Res. Rec. 777, 15 (1980)
Bicheron, G., Bulletin LCPC 182, 83 (1992)
Huang, B., Transp. Res. Rec. 1929, 37 (2005)CrossRef
EN 12697-1:2000, Bituminous mixtures - Test methods for hot mix asphalt - Part 1: Soluble binder content
EN 12697-35:2007, Bituminous mixtures - Test methods for hot mix asphalt - Part 35: Laboratory mixing
Dalibart, M., T.I. P2845, 1 (2000)
Yoon, S., Korean J. Chem. Eng. 26, 64 (2009)CrossRef
Lamontagne, J. et al., Fuel 80, 483 (2001)CrossRef
Mouillet, V. et al., Fuel 87, 1270 (2008)CrossRef
Silverstein, R., Webster, F., Kiemle, D., Identification spectrométrique de composés organiques, 2nd edn. (De Boeck, Brussels, Belgique, 2007)Google Scholar