Use of waste rubber particles in cement-stabilized aggregate for the eco-friendly pavement base layer construction: Laboratory performance and field application

[1]  B. Tayeh,et al.  Experimental investigation on the behaviour of crumb rubber concrete columns exposed to chloride–sulphate attack , 2022, Structures.

[2]  Chaohui Wang,et al.  Research progress and performance evaluation of crumb-rubber-modified asphalts and their mixtures , 2022, Construction and Building Materials.

[3]  Jie Li,et al.  A comprehensive review on the application of renewable waste tire rubbers and fibers in sustainable concrete , 2022, Journal of Cleaner Production.

[4]  C. Liang,et al.  Simulation Analysis of Cement-Stabilized Macadam Compaction Processing Based on the Discrete Element Method , 2022, Applied Sciences.

[5]  Haijun Chen,et al.  Study on Road Performance of Cement-Stabilized Recycled Aggregate Base with Fiber and Rubber , 2022, Advances in Civil Engineering.

[6]  Jinshun Xue,et al.  Mechanical-strength-growth law and predictive model for ultra-large size cement-stabilized macadam based on the vertical vibration compaction method , 2022, Construction and Building Materials.

[7]  Yingjun Jiang,et al.  Laboratory fatigue performance of the cement-stabilised loess fabricated using different compaction methods , 2022, Road Materials and Pavement Design.

[8]  Zhanping You,et al.  Laboratory Performance and Field Case Study of Asphalt Mixture with Sasobit Treated Aramid Fiber as Modifier , 2021, Transportation Research Record: Journal of the Transportation Research Board.

[9]  F. Ni,et al.  Meso-cracking characteristics of rubberized cement-stabilized aggregate by discrete element method , 2021 .

[10]  Y. Zhuge,et al.  Practical Rubber Pre-Treatment Approch for Concrete Use—An Experimental Study , 2021, Journal of Composites Science.

[11]  Yanling Li,et al.  Comparative Research on Mechanical Properties and Void Distribution of Cement Stabilized Macadam Based on Static Pressure and Vibration Compaction , 2020, Applied Sciences.

[12]  Jinbao Zhang,et al.  Laboratory Investigation on the Performance of Cement Stabilized Recycled Aggregate with the Vibration Mixing Process , 2020 .

[13]  N. Thom,et al.  Compressive behaviour of rubberized cement-stabilized aggregate mixtures , 2020 .

[14]  Yingjun Jiang,et al.  Fatigue Performance of Cement-Stabilized Crushed Gravel Produced Using Vertical Vibration Compaction Method , 2020 .

[15]  Jun Yang,et al.  Mechanical properties and crack resistance of crumb rubber modified cement-stabilized macadam , 2020 .

[16]  Zhanping You,et al.  Laboratory Evaluation of the Residue of Rubber-Modified Emulsified Asphalt , 2020, Sustainability.

[17]  Yingjun Jiang,et al.  Effects of Cement Content, Curing Period, Gradation, and Compaction Degree on Mechanical Behavior of Cement-Stabilized Crushed Gravel Produced via Vertical Vibration Test Method , 2020 .

[18]  Zhanping You,et al.  Rheological properties and chemical characterisation of reacted and activated rubber modified asphalt binder , 2020, Road Materials and Pavement Design.

[19]  Y. Zhuge,et al.  A comprehensive review on the mechanical properties of waste tire rubber concrete , 2020 .

[20]  Yingjun Jiang,et al.  Resilient modulus and influencing factors of vertical vibration compacted cement-stabilized macadam , 2019 .

[21]  Zhanping You,et al.  Use of reacted and activated rubber in ultra-thin hot mixture asphalt overlay for wet-freeze climates , 2019, Journal of Cleaner Production.

[22]  Yezhou Yang,et al.  Strength and fatigue performance for cement-treated aggregate base materials , 2019, International Journal of Pavement Engineering.

[23]  Yan Zhuge,et al.  Axial Compression Behaviour of Hybrid Double-Skin Tubular Columns Filled with Rubcrete , 2019, Journal of Composites Science.

[24]  M. Rabehi,et al.  Influence of waste tire rubber fibers on swelling behavior, unconfined compressive strength and ductility of cement stabilized bentonite clay soil , 2019, Construction and Building Materials.

[25]  A. Turatsinze,et al.  Effect of an enhanced rubber-cement matrix interface on freeze-thaw resistance of the cement-based composite , 2019, Construction and Building Materials.

[26]  Xiaoping Ji,et al.  Comparison on properties of cement-stabilised gravel prepared by different laboratory compaction methods , 2019 .

[27]  N. Thom,et al.  Behaviour of rubberised cement-bound aggregate mixtures containing different stabilisation levels under static and cyclic flexural loading , 2019, Road Materials and Pavement Design.

[28]  Zhuoming Chen,et al.  Investigation on the interfacial behaviour between the rubber-cement matrix of the rubberized concrete , 2019, Journal of Cleaner Production.

[29]  Amirali Zad,et al.  Experimental evaluation of mechanically stabilized earth walls with recycled crumb rubbers , 2018, Journal of Rock Mechanics and Geotechnical Engineering.

[30]  T. K. Šipoš,et al.  Recycled Rubber as an Aggregate Replacement in Self-Compacting Concrete—Literature Overview , 2018, Materials.

[31]  M. ElGawady,et al.  Analytical Modeling of the Main characteristics of Crumb Rubber Concrete , 2017, SP-314 Eco-Efficient and Sustainable Concrete Incorporating Recycled Post-Consumer and Industrial Byproducts.

[32]  Yingjun Jiang,et al.  Evaluation of the mechanical behaviors of cement-stabilized cold recycled mixtures produced by vertical vibration compaction method , 2016 .

[33]  N. Thom,et al.  Effect of cementation level on performance of rubberized cement-stabilized aggregate mixtures , 2016 .

[34]  Yubo Jiao,et al.  Experimental Investigation of the Mechanical and Durability Properties of Crumb Rubber Concrete , 2016, Materials.

[35]  N. Thom,et al.  Characterization of rubberized cement bound aggregate mixtures using indirect tensile testing and fractal analysis , 2016 .

[36]  Martin J. Smith,et al.  Flexural characteristics of rubberized cement-stabilized crushed aggregate for pavement structure , 2015 .

[37]  Blessen Skariah Thomas,et al.  Long term behaviour of cement concrete containing discarded tire rubber , 2015 .

[38]  Ri-xin Liu,et al.  Utilization of waste tire rubber powder in concrete , 2015 .

[39]  Ruochong Yang,et al.  Effect of rubber particles on cement stabilized gravel system , 2014, Journal of Wuhan University of Technology-Mater. Sci. Ed..

[40]  Xiao Hui Li,et al.  Comparative Research on Pavement Performance of Cement Stabilized Macadam Base in Different Molding Methods , 2014 .

[41]  Yingjun Jiang,et al.  An investigation of mechanical behavior of cement-stabilized crushed rock material using different compaction methods , 2013 .

[42]  Han Zhu,et al.  Mechanics Analysis of Asphalt Pavement with Crumb Rubber Modified Cement Stabilized Macadam Base , 2012 .

[43]  Juan Wang,et al.  Workability and Durability of Concrete Incorporating Waste Tire Rubber: A Review , 2022, Journal of Renewable Materials.

[44]  Songtao Lv,et al.  The Performance Evaluation of High Content Bio-Asphalt Modified with Polyphosphoric Acid , 2022, SSRN Electronic Journal.