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Asphalt materials and mixtures 2012. Volume 4.

Author: National Research Council (U.S.). Transportation Research Board.; National Research Council (U.S.). Transportation Research Board. Committee on Characteristics of Asphalt-Aggregate Combinations to Meet Surface Requirements.
Publisher: Washington, D.C. : Transportation Research Board, 2012.
Series: Transportation research record, 2296.
Edition/Format:   Print book : EnglishView all editions and formats
Summary:
"TRB's Transportation Research Record: Journal of the Transportation Research Board, No. 2296 consists of 15 papers that explore dynamic modulus master curves; the self-healing capability of asphalt mixtures; permanent deformation of asphalt concrete in compression; asphalt concrete fatigue analysis; hot-mix asphalt permanent deformation; calibration and validation of overlay tester-based fatigue-cracking model; and  Read more...
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Material Type: Internet resource
Document Type: Book, Internet Resource
All Authors / Contributors: National Research Council (U.S.). Transportation Research Board.; National Research Council (U.S.). Transportation Research Board. Committee on Characteristics of Asphalt-Aggregate Combinations to Meet Surface Requirements.
ISBN: 9780309262965 0309262968
OCLC Number: 825780696
Notes: "Journal of the Transportation Research Board."
"A peer-reviewed publication."
Papers sponsored by Characteristics of Asphalt-Aggregate Combinations to Meet Surface Requirements Committee.
Description: vii, 152 pages : illustrations, charts, plan ; 28 cm.
Contents: Construction of dynamic modulus master curves with resilient modulus and creep test data / Hyung Suk Lee [and three others] --
Development of autonomous setup for evaluating self-healing capability of asphalt mixtures / Jian Qiu [and three others] --
Incremental model for prediction of permanent deformation of asphalt concrete in compression / Yeong-Tae Choi [and three others] --
Simplified viscoelastic continuum damage model as platform for asphalt concrete fatigue analysis / B. Shane Underwood, Cheolmin Baek, Y. Richard Kim --
Hot-mix asphalt permanent deformation evaluated by Hamburg wheel tracking, dynamic modulus, and repeated load tests / Lubinda F. Walubita [and six others] --
Calibrating and validating overlay tester-based fatigue cracking model with data from National Center for Asphalt Technology / Sheng Hu [and three others] --
Evaluation of asphalt mixture performance tester : Utah experience / Levi Roberts [and three others] --
Effects of oxidative aging on asphalt mixture properties / Cheolmin Baek, B. Shane Underwood, Y. Richard Kim --
Method to quantify healing in asphalt composites by continuum damage approach / Sundeep Palvadi, Amit Bhasin, Dallas N. Little --
Asphalt pavement analyzer used to assess rutting susceptibility of hot-mix asphalt designed for high tire pressure aircraft / John F. Rushing, Dallas N. Little, Navneet Garg --
Modeling thermal stress in asphalt mixtures undergoing glass transition and physical hardening / Hassan A. Tabatabaee, Raul Velasquez, Hussain U. Bahia --
Characterization of fracture properties of asphalt mixtures as measured by semicircular bend test and indirect tension test / Minkyum Kim, Louay N. Mohammad, Mostafa A. Elseifi --
Determining damage development in hot-mix asphalt with use of continuum damage mechanics and small-scale accelerated pavement test / Sudip Bhattacharjee, Rajib B. Mallick --
Scanning laser detection system used to measure propagation of fatigue damage of asphalt mixes / Hossein Ajideh, Hussain U. Bahia, James Earthman --
Effects of mode of loading on viscoelastic and damage properties of asphalt concrete / Aravind Krishna Swamy, Jo Sias Daniel.
Series Title: Transportation research record, 2296.
More information:

Abstract:

"TRB's Transportation Research Record: Journal of the Transportation Research Board, No. 2296 consists of 15 papers that explore dynamic modulus master curves; the self-healing capability of asphalt mixtures; permanent deformation of asphalt concrete in compression; asphalt concrete fatigue analysis; hot-mix asphalt permanent deformation; calibration and validation of overlay tester-based fatigue-cracking model; and asphalt mixture performance tester evaluation. This issue of the TRR also examines the oxidative ageing effect on asphalt mixture properties; quantifying healing in asphalt composites; rutting of hot-mix asphalt designed for high tire-pressure aircraft; thermal stress in asphalt mixtures during hardening; measuring fracture properties of asphalt mixtures; determining damage development in hot-mix asphalt; measuring fatigue damage of asphalt mixes using scanning laser detection system; and loading mode effects on asphalt concrete viscoelastic and damage properties. " -- publisher's description.

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