Advanced search
Publication Cover
Road Materials and Pavement Design Volume 14, 2013 - Issue sup2: Papers from the 88th Association of Asphalt Paving Technologists' Annual Meeting, April 7–10, 2013
Submit an article Journal homepage
686
Views
37
CrossRef citations to date
0
Altmetric
Original Articles

IlliTC – low-temperature cracking model for asphalt pavements

Eshan V. Dave Department of Civil Engineering, University of Minnesota Duluth, Duluth, MN, 55812, USACorrespondence[email protected]
,
William G. Buttlar Department of Civil and Environmental Engineering, University of Illinois, Urbana, IL, 61801, USA
,
Sofie E. Leon Department of Civil and Environmental Engineering, University of Illinois, Urbana, IL, 61801, USA
,
Behzad Behnia Department of Civil and Environmental Engineering, University of Illinois, Urbana, IL, 61801, USA
&
Glaucio H. Paulino Department of Civil and Environmental Engineering, University of Illinois, Urbana, IL, 61801, USA
Pages 57-78 | Published online: 23 Sep 2013

Citations (37)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (14)

Mohammad Zarei, Ali Abdi Kordani & Mohsen Zahedi. (2022) Evaluating the fracture behaviour of modified asphalt concrete composites (ACC) at low and intermediate temperatures using edge notched disc bend (ENDB) specimen. Road Materials and Pavement Design 23:8, pages 1917-1941.
Read now
Behnam Jahangiri, Punyaslok Rath, Hamed Majidifard, Loreto Urra & William G. Buttlar. (2022) Investigation of recycled asphalt mixtures in Missouri: laboratory, field, and ILLI-TC modelling. Road Materials and Pavement Design 23:6, pages 1345-1369.
Read now
He Wang & William G. Buttlar. (2020) Three-dimensional analytical model for exploration of the block cracking phenomenon in asphalt pavements. Road Materials and Pavement Design 21:4, pages 985-1005.
Read now
Bagdat Teltayev & Boris Radovskiy. (2018) Predicting thermal cracking of asphalt pavements from bitumen and mix properties. Road Materials and Pavement Design 19:8, pages 1832-1847.
Read now
Brian Hill, Daniel Oldham, Behzad Behnia, Elham H. Fini, William G. Buttlar & Henrique Reis. (2018) Evaluation of low temperature viscoelastic properties and fracture behavior of bio-asphalt mixtures. International Journal of Pavement Engineering 19:4, pages 362-369.
Read now
Hainian Wang, Chonghui Wang, Zhanping You, Xu Yang & Zhihan Huang. (2018) Characterising the asphalt concrete fracture performance from X-ray CT Imaging and finite element modelling. International Journal of Pavement Engineering 19:3, pages 307-318.
Read now
Hasan Ozer, Imad L. Al-Qadi, Punit Singhvi, Jason Bausano, Regis Carvalho, Xinjun Li & Nelson Gibson. (2018) Prediction of pavement fatigue cracking at an accelerated testing section using asphalt mixture performance tests. International Journal of Pavement Engineering 19:3, pages 264-278.
Read now
Hoki Ban, Soohyok Im, Yong-Rak Kim & Jong Suk Jung. (2018) Laboratory tests and finite element simulations to model thermally induced reflective cracking of composite pavements. International Journal of Pavement Engineering 19:3, pages 220-230.
Read now
Jozef Judycki. (2018) A new viscoelastic method of calculation of low-temperature thermal stresses in asphalt layers of pavements. International Journal of Pavement Engineering 19:1, pages 24-36.
Read now
Yuefeng Zhu, Eshan V. Dave, Reyhaneh Rahbar-Rastegar, Jo Sias Daniel & Adam Zofka. (2017) Comprehensive evaluation of low-temperature fracture indices for asphalt mixtures. Road Materials and Pavement Design 18:sup4, pages 467-490.
Read now
MohammadZia Alavi, Elie Y Hajj & Peter E Sebaaly. (2017) A comprehensive model for predicting thermal cracking events in asphalt pavements. International Journal of Pavement Engineering 18:9, pages 871-885.
Read now
Eshan V. Dave & Chelsea Hoplin. (2015) Flexible pavement thermal cracking performance sensitivity to fracture energy variation of asphalt mixtures. Road Materials and Pavement Design 16:sup1, pages 423-441.
Read now
Yue Hou, Pengtao Yue, Qiang Xin, Troy Pauli, Wenjuan Sun & Linbing Wang. (2014) Fracture failure of asphalt binder in mixed mode (Modes I and II) by using phase-field model. Road Materials and Pavement Design 15:1, pages 167-181.
Read now
Enad Mahmoud, Shadi Saadeh, Hamed Hakimelahi & John Harvey. (2014) Extended finite-element modelling of asphalt mixtures fracture properties using the semi-circular bending test. Road Materials and Pavement Design 15:1, pages 153-166.
Read now

Articles from other publishers (23)

Mahmood Tabesh, Ahmadreza Mahmoudzadeh & Sara Arezoumand. (2023) A reliability-base method for thermal cracking prediction in asphalt concrete. Construction and Building Materials 409, pages 133912.
Crossref
Liya Jiao, John T. Harvey, Rongzong Wu & Hanyu Deng. (2023) Study on Thermal Reflective Cracking of Asphalt Concrete Overlays on Concrete Pavements Under Moderate Temperature Variations Using Finite Element Model. Transportation Research Record: Journal of the Transportation Research Board.
Crossref
Esraa R. Al-Gurah & Basim H. Al-Humeidawi. (2023) Assessment of performance of hot mix asphalt contained various types of mineral fillers and newly polymer modified bitumen. Materials Today: Proceedings 80, pages 3877-3886.
Crossref
Junxia Cai, Hui Li, Zhiwu Li & Qingfu Li. (2022) Evaluation of Construction Asphalt Pavements Based Toposable Set Theory: A Case Study. Applied Sciences 12:20, pages 10614.
Crossref
Runhua Zhang, Jiandong Huang & Wang Zheng. (2022) Evaluation of the significance of different mix design variables on asphalt mixtures’ cracking performance measured by laboratory performance tests. Construction and Building Materials 350, pages 128693.
Crossref
Runhua Zhang, Jo E. Sias & Eshan V. Dave. (2022) Using mix design information for modelling of fundamental viscoelasticity of asphalt mixtures. Construction and Building Materials 329, pages 127029.
Crossref
Runhua Zhang, Jo E. Sias & Eshan V. Dave. (2022) Evaluation of the cracking and aging susceptibility of asphalt mixtures using viscoelastic properties and master curve parameters. Journal of Traffic and Transportation Engineering (English Edition) 9:1, pages 106-119.
Crossref
Behrooz Keshavarzi, Douglas Mocelin & Y. Richard Kim. (2022) A Composite Model for Predicting the Coefficient of Thermal Contraction for Asphalt Concrete Mixtures. Journal of Testing and Evaluation 50:1, pages 20210039.
Crossref
Runhua Zhang, Weiguang Zhang, Shihui Shen, Shenghua Wu & Yiming Zhang. (2021) Evaluation of the correlations between laboratory measured material properties with field cracking performance for asphalt pavement. Construction and Building Materials 301, pages 124126.
Crossref
Runhua Zhang, Jo E. Sias & Eshan V. Dave. (2021) Comparison and correlation of asphalt binder and mixture cracking parameters incorporating the aging effect. Construction and Building Materials 301, pages 124075.
Crossref
Behnam Jahangiri, Mohammad M. Karimi, Oliver Giraldo-Londoño & William G. Buttlar. (2021) Characterization of viscoelastic properties of asphalt mixture at low temperatures using DC(T) creep test. Construction and Building Materials 298, pages 123731.
Crossref
Aksel Seitllari, Michele Lanotte & M. Emin Kutay. (2020) Effect of aggregate selection and design gyrations on the performance of polymer and devulcanized rubber modified mixtures. International Journal of Pavement Research and Technology 14:1, pages 54-62.
Crossref
Yaning Qiao, Andrew R. Dawson, Tony Parry, Gerardo Flintsch & Wenshun Wang. (2020) Flexible Pavements and Climate Change: A Comprehensive Review and Implications. Sustainability 12:3, pages 1057.
Crossref
Hamed Majidifard, Nader Tabatabaee & William Buttlar. (2019) Investigating short-term and long-term binder performance of high-RAP mixtures containing waste cooking oil. Journal of Traffic and Transportation Engineering (English Edition) 6:4, pages 396-406.
Crossref
Runhua Zhang, Jo E. Sias, Eshan V. Dave & Reyhaneh Rahbar-Rastegar. (2019) Impact of Aging on the Viscoelastic Properties and Cracking Behavior of Asphalt Mixtures. Transportation Research Record: Journal of the Transportation Research Board 2673:6, pages 406-415.
Crossref
Biao Ma, Sha-sha Chen, Kun Wei, Feng-wei Liu & Xue-yan Zhou. (2019) Analysis of thermoregulation indices on microencapsulated phase change materials for asphalt pavement. Construction and Building Materials 208, pages 402-412.
Crossref
Reyhaneh Rahbar-RastegarEshan V. Dave & Jo Sias Daniel. (2018) Fatigue and Thermal Cracking Analysis of Asphalt Mixtures Using Continuum-Damage and Cohesive-Zone Models. Journal of Transportation Engineering, Part B: Pavements 144:4, pages 04018040.
Crossref
Judita Gražulytė, Audrius Vaitkus, Vitalijus Andrejevas & Gediminas Gribulis. (2017) Methods and criteria for evaluation of asphalt mixture resistance to low temperature cracking. The Baltic Journal of Road and Bridge Engineering 12:2, pages 135-144.
Crossref
Rita Kleizienė, Audrius Vaitkus, Jurgita Židanavičiūtė & Evaldas Marcinkevičius. (2017) Classification of Surface Temperature for the Flexible Pavement Design. Classification of Surface Temperature for the Flexible Pavement Design.
Behrooz Keshavarzi & Y. Richard Kim. (2016) A viscoelastic-based model for predicting the strength of asphalt concrete in direct tension. Construction and Building Materials 122, pages 721-727.
Crossref
Nouffou Tapsoba, Hassan Baaj, Cédric Sauzéat, Hervé Di Benedetto & Mohsen Ech. (2016) 3D Analysis and Modelling of Thermal Stress Restrained Specimen Test (TSRST) on Asphalt Mixes with RAP and Roofing Shingles. Construction and Building Materials 120, pages 393-402.
Crossref
Padmini P. Gudipudi & B. Shane Underwood. (2016) Reliability Analysis of Fatigue Life Prediction from the Viscoelastic Continuum Damage Model. Transportation Research Record: Journal of the Transportation Research Board 2576:1, pages 91-99.
Crossref
Eshan V. Dave, Benjamin Helmer, Chelsea Hanson, Jared Munch & Luke Johanneck. 2016. 8th RILEM International Symposium on Testing and Characterization of Sustainable and Innovative Bituminous Materials. 8th RILEM International Symposium on Testing and Characterization of Sustainable and Innovative Bituminous Materials 993 1003 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.