Empa - Long Term Field Characterization of Polymer Modified Binder

home

language

login

rss



	alphabetical
	hierarchical



	Deutsch
	English
	Français

Empa - a Research Institute of the ETH Domain


You are here:		empa.ch	>	Departments	>	Civil	>	Road	>	Non-Destruct ...


	empa.ch

	Empa in Profile
	Departments and Labs
	Empa Academy


	Departments and Labs

	Advanced Materials and Surfaces
	Civil and Mechanical Engineering
	Materials meet Life
	Mobility, Energy and Environment
	Support
	Media Technology
	Centers
	Competence Centers of the ETH-Domain
	Research Commission
	Directorate


	Civil and Mechanical Engineering

	Mechanical Systems Engineering
	Mechanics for Modelling and Simulation
	Structural Engineering
	Applied Wood Materials
	Building Science and Technology
	Concrete/Construction Chemistry
	Road Engineering/Sealing Components
	Acoustics/Noise Control
	Synergetic Structures


	Road Engineering/Sealing Components

	Road Materials and Pavements
	In-situ Performance Testing
	Sealing Components
	Non-Destructive Testing
	Multiscaling and microstructure of road materials


	Non-Destructive Testing

Road Engineering/Sealing Components


Road Materials and Pavements

In-situ Performance Testing

Sealing Components

Non-Destructive Testing

Multiscaling and microstructure of road materials

publication

ISBN 90-5809-375-1

11. April 2002


Title	Long Term Field Characterization of Polymer Modified Binders using the Torsional Dynamic Resonance Rheometer

Authors	Poulikakos, L.D., Sayir, M. B., Partl, M.N

Magazine/Conference	Performance of Bituminous and Hydraulic Materials in Pavements, edited by S.E. Zoorob et al. / 4th European Symposium on Performance of Bitumen and Hydraulic Materials in Pavements, 11th-12th April 2002, Nottingham, UK

Vol+No+Page v/b	pp. 263-268

Publishing House	Balkema

Abstract	When a rod is performing torsional vibrations at one of its resonance frequencies, any interaction with a viscoelastic medium will change both its resonance frequency and it's damping characteristics. By measuring this change, one can obtain the viscoelastic material properties of the medium. The new high frequency torsional dynamic resonance rheometer presented below is based on this principle. The device is very robust in environments involving spurious low frequencies, which makes it ideal for in situ measurements. In the present case, a polymer modified asphaltic plug joint of a Swiss highway was monitored continuously from August 1998 until December 2000. The data on resonance frequencies and damping have been interpreted by means of a mechanical model involving both the vibrating sensor and the portion of the bituminous binder participating in the vibrations. The values for damping and elastic constant of the bituminous binder have been recovered from this model. These values give clear indications on hthe long-term influence of climate and ageing on the material. The experimental field results obtained over a time span of several years show that the data from the high frequency rheometer lead to valuable information for material optimisation and improved performance behaviour of asphaltic plug joints.

Links

Long Term Field Characterization of Polymer Modified Binders.pdf: 651 KB


Expert(s):

Lily Poulikakos
Manfred Partl

© Empa Switzerland / Disclaimer / Impressum / 21.5.2012