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Transportation in Developing Economies

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01.04.2019 | Original Article

Influence of Strain Amplitude and Rest Period on Fatigue Life of CRMB Modified Bituminous Mixture

verfasst von: A. Pugazhenthi, K. Nagamani, A. Padmarekha, J. Murali Krishnan

Erschienen in: Transportation in Developing Economies | Ausgabe 1/2019

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Abstract

This study focuses on the laboratory investigations carried out to quantify the fatigue life of viscosity grade 40 (VG40) and crumb rubber modified bituminous (CRMB) mixtures and the influence of rest period. Four-point beam bending experiments were carried out with strain-controlled loading at 20 \(^{\circ }\)C and 10 Hz frequency with and without rest period between two consecutive load cycles. The fatigue life was quantified using flexural stiffness. It was seen that the CRMB mixture exhibited low rate of reduction in flexural stiffness and better recovery during the rest period when compared to bituminous mixtures produced using VG40 binder.

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Presti DL (2013) Recycled tyre rubber modified bitumens for road asphalt mixtures: a literature review. Construct Build Mater 49:863–881CrossRef

Palit SK, Reddy KS, Pandey BB (2004) Laboratory evaluation of crumb rubber modified asphalt mixes. J Mater Civ Eng 16(1):45–53CrossRef

Cao W (2007) Study on properties of recycled tire rubber modified asphalt mixtures using dry process. Construct Build Mater 21(5):1011–1015CrossRef

IS 73 (2013) Indian standard for paving bitumen-specification (fourth revision). Bureau of Indian Standards, New Delhi

Epps JA, Monismith CL (1969) Influence of mixture variables on the flexural fatigue properties of asphaltic concrete. AAPT 38:423–464

Tayebali AA, Deacon JA, Coplantz JS, Harvey JT, Monismith CL (1994) Mix and mode of loading effects on fatigue response of asphalt-aggregate mixes. Proc AAPT 63:118–151

AASHTO T321-07 (2007) Determining the fatigue life of compacted hot mix asphalt subjected to repeated flexural bending. American Association of State Highways and Transportation Officials, Washington, D.C

ASTM D7460-10 (2010) Standard test method for determining fatigue failure of compacted asphalt concrete subjected to repeated flexural bending. ASTM International, West Conshohocken

Pronk AC, Erkens SMJG (2002) A note on fatigue bending tests using a haversine loading. Road Mater Pavem Des 3(1):95–106CrossRef

10.

Mamlouk M, Souliman M, Zeiada W (2012) Optimum testing conditions to measure HMA fatigue and healing using flexural bending test. In: Presented in the TRB annual meeting

11.

Van Dijk W, Visser W (1977) The energy approach to fatigue for pavement design. Proc AAPT 46:1–40

12.

Bonnaure F, Huibers A, Boonders A (1982) A laboratory investigation of the influence of rest periods on the fatigue characteristics of bituminous mixes. J AAPT 51:104–128

13.

Castro M, Snchez JA (2006) Fatigue and healing of asphalt mixtures: discriminate analysis of fatigue curves. J Transp Eng 132(2):168–174CrossRef

14.

Kim YR, Little DN, Benson F (1990) Chemical and mechanical evaluation on healing mechanism of asphalt concrete. J AAPT 59:240–276

15.

IS 15462-2004 (2004) Polymer and rubber modified bitumen-specification. Bureau of Indian Standards, New Delhi

16.

MoRTH (2001) Specification for road and bridge works, fifth revision. IRC Ministry of Road Transport and Highways, New Delhi

17.

Baburamani P (1999) Asphalt fatigue life prediction models: a literature review (No. ARR 334), ARRB Transport Research Ltd, Australia

18.

IRC37 (2012) Guidelines for the design of flexible pavements, third revision. Indian Roads Congress, New Delhi

Titel: Influence of Strain Amplitude and Rest Period on Fatigue Life of CRMB Modified Bituminous Mixture
verfasst von: A. Pugazhenthi
K. Nagamani
A. Padmarekha
J. Murali Krishnan
Publikationsdatum: 01.04.2019
Verlag: Springer International Publishing
Erschienen in: Transportation in Developing Economies / Ausgabe 1/2019
Print ISSN: 2199-9287
Elektronische ISSN: 2199-9295
DOI: https://doi.org/10.1007/s40890-019-0072-x

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