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Functional Pavements: Proceedings of the 6th ChineseEuropean Workshop on Functional Pavement Design (CEW 2020), Nanjing, China, 18-21 October 2020 [Kõva köide]

Edited by (Southeast University, China), Edited by (RWTH Aachen University, Germany), Edited by (Southeast University, China), Edited by (Delft University of Technology, The Netherlands)
  • Formaat: Hardback, 446 pages, kõrgus x laius: 246x174 mm, kaal: 990 g
  • Ilmumisaeg: 29-Dec-2020
  • Kirjastus: CRC Press
  • ISBN-10: 0367726106
  • ISBN-13: 9780367726102
Teised raamatud teemal:
Functional Pavements: Proceedings of the 6th ChineseEuropean Workshop on Functional Pavement Design (CEW 2020), Nanjing, China, 18-21 October 2020Suurem pilt
  • Formaat: Hardback, 446 pages, kõrgus x laius: 246x174 mm, kaal: 990 g
  • Ilmumisaeg: 29-Dec-2020
  • Kirjastus: CRC Press
  • ISBN-10: 0367726106
  • ISBN-13: 9780367726102
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780367726102.html
Märksõnad:

Functional Pavements is a collection of papers presented at the 6th Chinese-European Workshop (CEW) on Functional Pavement Design (Nanjing, China, October 18-21, 2020). The focus of the CEW series is on field tests, laboratory test methods and advanced analysis techniques, and cover analysis, material development and production, experimental characterization, design and construction of pavements. The main areas covered by the book include:

• Asphalt binders for flexible pavements
• Asphalt mixture evaluation and performance
• Pavement construction and maintenance
• Pavement Surface Properties and Vehicle Interaction
• Cementitious materials for rigid pavements
• Pavement geotechnics and environment

Functional Pavements aims at contributing to the establishment of a new generation of pavement design methodologies in which rational mechanics principles, advanced constitutive models and advanced material characterization techniques shall constitute the backbone of the design process. The book will be much of interest to professionals, academics and practitioners in pavement engineering and related disciplines as it should assist them in providing improved road pavement infrastructure to their stakeholders.

Preface xi
Committees xiii
International advisory committee xv
Scientific committee xvii
Asphalt binders for flexible pavements
Preliminary study of reinforced asphalt binder with functionalized fiber
3(4)
J. Xiong
Z. Su
S. Ma
Y. Ye
J. Li
R. Lan
Use of waste oil/styrene-butadiene-rubber blends as rejuvenators for aged bitumen
7(6)
S. Ren
X. Liu
P. Lin
S. Erkens
Smart bionic de-icing bituminous material based on autocrine microcapsules with a temperature responsive character
13(7)
X.M. Xie
L.Q. Wang
J.F. Su
Smart micro-containers for multi-functional asphalt pavement
20(6)
X.M. Xie
L.Q. Wang
J.F. Su
Effect of bio-oil on low-intermediate temperature properties of organosolv lignin-bitumen
26(5)
Y. Zhang
X. Liu
S. Ren
R. Jing
W. Gard
P. Apostolidis
S. Erkens
A. Skarpas
Evaluation on aging characteristic of bio-asphalt containing high percentage of waste cooking oil residues with various aging methods
31(5)
Y. Zhang
T. Lu
D. Sun
M. Hu
J. Ma
Study on classical and rheological performance of high viscosity modified asphalt for porous asphalt mixture
36(9)
H. Zhang
H. Tang
B. Xu
D. Cao
B. Yuan
W. Chang
Application of infrared spectroscopy in prediction of asphalt aging time and fatigue life
45(18)
M. Ran
Y. Yang
Y. Yan
X. Zhou
R. Jiang
Research on mechanical characteristics of asphalt pavement based on gradient aging
63(5)
H. Chen
X. Shi
G. Lu
X. Yi
J. Yang
Morphology characteristics of SBS modifier in the asphalt mixture
68(5)
X. Zhang
Y. Xiao
M. Yunusa
Effect of ozone aging on asphalt properties
73(5)
M. Guo
X. Liu
Y. Jiao
Evaluation of the effects of different modifiers on the rheological properties of bitumen
78(5)
B. Wu
X. Wu
P. Xiao
A. Kang
Z. Wu
Optimization of low-temperature vacuum evaporation test for emulsified asphalt
83(7)
J. Shi
C. Li
H. Xu
X. Yang
H. Li
Morphology and size analysis of polymer phase in PMA based on 3D reconstruction
90(5)
X. Zhu
G. Hao
Y. Wang
Influence of the source on bitumen performance using a DSR
95(8)
M. Rochlani
F. Wellner
G. C. Falla
S. Leischner
Asphalt mixture evaluation and performance
Laboratory investigation of epoxy resin based paving materials
103(5)
A.R. Khan
W. Zhang
Z. U. Rehman
Experimental study on the performance of new ultra-thin overlay TOM-10 mixture utilizing a SBS/rubber composite modified asphalt binder
108(7)
A.H. Liu
L.L. Liu
H.R. Zhu
M.M. Yu
Evaluation of the effect of laboratory aging on fatigue performance of Hot in-place (HIR) mixtures
115(6)
J. Ding
F. Ni
Z. Zhao
Q. Zhang
Performance of SMA mixture added iron tailings coarse aggregate
121(5)
Q. Zhang
Y. He
K. Wang
C. Jiao
W. Zhu
J. Wang
Effect of graphene on synthesized pavement performance of rubber asphalt mixture
126(12)
Y. Lu
A.H. Liu
Y.L. Li
Q. Li
Observation and research on performance of composite gussasphalt concrete steel deck pavement
138(8)
K.Q. Zhang
J. Cao
Z. Wu
R.J. Cao
Impact of RAP classification on the road performance variability of recycled mixture
146(6)
H. Zhan
N. Li
W. Tang
X. Yu
Experimental study on the initial and terminal performances of cold recycling emulsified asphalt mixtures
152(11)
Y. Dong
Y. Hou
Ch. Zhu
Y. Zhang
Experimental study on the properties of micro-surfacing mixtures containing RAP
163(10)
Z. Wang
H. Bu
C. Sha
T. Ma
Comparative study of different density models in asphalt mixture density prediction
173(9)
T. Zhang
H. Han
F. Chi
Y. Wang
The discrete and continuous retardation and relaxation spectrum of warm mix crumb rubber modified asphalt mixtures
182(6)
F. Zhang
L. Wang
Y.M. Xing
Effect of short-term aging on the anti-cracking performance of stone matrix asphalt reinforced by basalt fibers
188(4)
C. Kou
X. Wu
A. Kang
P. Xiao
Z. Fan
Performance prediction and evaluation for steel bridge deck pavement
192(8)
L.L. Chen
G. Liu
H.T. Wu
Z.D. Qian
Feasibility study of lightweight asphalt concrete in large flexibility steel bridge deck pavement
200(8)
C.C. Zhang
L. L. Chen
C.L. Jiang
G. Liu
Development of a multiscale simulation of asphalt pavements based on an FE-RVE approach
208(4)
Z. Qian
L. Chen
J. Hu
G. Lu
P. Liu
H. Liao
M. Oeser
Meso-mechanical assessment of composite materials based on the finite element method
212(5)
C. Du
P. Liu
M. Oeser
Creep analysis of viscoelastic beam by semi-analytical finite element method
217(10)
K. Shen
X. Chen
Pavement construction and maintenance
Study on control index of steel deck pavement for medium-small span bridges in seasonal frozen area
227(5)
L.D. Zhang
Y.T. Zhang
Y.F. Cao
J.Y. Zong
K.Q. Zhang
Evaluation of highway intelligent site construction based on entropy-TOPSIS method
232(5)
J. Huang
J. Zeng
C. Wu
K. Zhang
Application of intelligent control technology in asphalt pavement construction for N-M expressway
237(6)
P. Zhang
X. Chen
S. Xu
C. Wu
Research on EAC maintenance strategy based on mould and comprehensive evaluation
243(5)
M. Zhang
K. Zhong
M. Sun
Z. Qian
H. Wang
T. Gan
Automated pavement crack detection using region-based convolutional neural network
248(5)
J. Liu
X. Yang
V.C.S. Lee
Study on evaluation method of energy efficiency and carbon emission intensity of highway maintenance
253(5)
C. Chen
Z. Liu
C. Hu
H. Li
H. Yu
J. Xia
Y. Guo
F. Zhang
The significance of situation awareness theory for freeway risk analysis
258(5)
C. Yuan
L.Y. Wang
Q. Dong
X.Q. Chen
Study of the optimum compaction time for PU mixture based on impact penetration equipment
263(6)
Y. Xu
M. Duan
Y. Li
J. Ji
S. Xu
Study on the long-life pavement scheme of the reconstruction and extension project of highway
269(6)
Z. Mo
Z. Min
Y. Sun
J. Yang
J. Wang
L. Zhang
Pavement surface properties and vehicle interaction
Study on permeability performance decay law and clogging test of porous asphalt mixture
275(4)
H. Zhu
M. Yu
S. Duan
The effect of aggregate type and polishing levels on long-term skid resistance
279(5)
S. Li
K. Zhang
R. Xiong
J. Zhai
Cycling comfort on asphalt pavement: Effect of asphalt pavement macro-texture on vibration
284(8)
J. Gao
A. Sha
L. Hu
D. Yun
Interlayer shear resistance and anti-skidding durability of asphalt wearing course overlay on tunnel cement pavement
292(5)
Y. Zhang
M. Hu
D. Sun
T. Lu
J. Ma
3D reconstruction of pavement texture using single camera close-range photogrammetry
297(6)
R. Zhou
J. Chen
X. Shi
Research on the texture orientation characteristics of pavement surface
303(5)
W. Ren
S. Han
J. Ji
X. Han
T. Jiang
Y. Yang
Enhanced prediction of the tire-road-interaction by considering the surface texture
308(7)
J. Friederichs
L. Eckstein
Multiscale and multiphysical tire-pavement analysis: A mesostructure inspired material model for the short- and long-term material behavior of asphalt
315(5)
R. Behnke
F. Hartung
I. Wollny
M. Kaliske
Study on porous asphalt concrete clogging and cleaning mechanism based on numerical simulation
320(7)
W.J. Wen
B. Li
Study on aggregate strengthening performance and principle of recycled concrete based on macro and micro tests
327(12)
X. Teng
X. Yang
P. Yang
Pavement geotechnics & cementitious materials
Erosion-resistance performance of SG-1 soil stabilizer-stabilized gravel soil compared with cement-stabilized gravel soil
339(5)
Y. Zhao
Z. Zhao
S. Xie
Y. Zhang
S. Wang
Study on the law of compressive rebound modulus of liquid soil materials
344(5)
Y. Zhang
D. Guo
C. Huang
M. Zhu
Study on mechanical properties of cement stabilized macadam with different admixtures
349(5)
M. Zhang
K. Zhong
M. Sun
H. Wang
X. Tian
Q. Huang
Analysis of factors affecting durability of concrete sleepers
354(6)
M. Li
Y. Zhao
Study on road performance of liquid soil materials
360(5)
C. Huang
J. Chen
Y. Zhang
D. Guo
FEM analysis of heat transfer in porous asphalt pavement
365(5)
M.W. Abid
A.R. Khan
B. Yu
Evaluation on simple estimation method of slab panel's field temperature
370(7)
Y.X. Wei
P. Aela
J.B. Shang
B. Yang
Comparing the environmental impacts of conventional and perpetual flexible pavements based on life cycle assessment
377(7)
S. Liu
Y. Xue
G. Ni
Y. Qiao
Z. Zhang
F. Giustozzi
J. Zhang
Opportunities and challenges for the application of asphalt supporting layer in the slab track system
384(5)
S. Liu
J. Yang
X. Chen
Investigation into the effect of pavement albedo and environmental factors on urban heat island effect using CFD simulation
389(7)
J. Wang
J. Chen
J. Wu
Z. Zhou
Evaluation and optimization on the reflection and durability of reflective coatings for cool pavement
396(7)
N. Xie
H. Li
Importance of pavement drainage and different approaches of modelling
403(4)
S. Alber
B. Schuck
W. Ressel
Experimental and numerical investigation on the development of pore clogging in novel porous pavement based on polyurethane
407(5)
G. Lu
H. Wang
P. Liu
Z. Leng
M. Oeser
Unconfined compressive strength and prediction model of fiber/cement modified slurry
412(7)
J.B. Hu
P. Jiang
Design innovation and study on pot bearings for highway bridges
419(8)
M. Li
C. Zhang
P. Yin
X.Y. Ban
J.G. Rong
C. Wang
Author index 427
Prof. Dr. Xianhua Chen is a full-time professor of Highway and Railway Engineering at Southeast University, First Prize Winner of Jiangsu Provincial Graduate Education Reform Achievements. He is the member of China Highway and Transportation Society, editing board member of Journal of Innovative Infrastructure Solutions, visiting scholar of University of Illinois at Urbana-Champaign and University of Texas (2008.08), RWTH Aachen University (2008.10-2009.10, 2012.12-2013.02), Delft University of Technology (2011.07-08,2015.06), UBC(2019.07-08). He was honored as Six Talent Peaks awarded by Jiangsu Provincial government. He originated the CN-EU Workshop on functional pavement(CEW), acted as organizing chair of 1st CEW(2010, Nanjing) , vice-chair of 5th CEW(2018, Changsha) and the chair of 6th CEW(2020, Nanjing). He is also an active fellow in deck pavements and acted as the chair of pre-symposium workshop on advanced measurement and characterization on deck pavements (2012, Nanjing). His research topics cover advanced transportation infrastructure materials, asphalt concrete roadbed and waterproofing system for high-speed railway, pavement surface characteristics, functional pavement, and deck pavements.



Prof. Dr. Jun Yang is a professor of Highway and Railway Engineering at School of Transportation, Southeast University, China. She is a member of Highway and Transportation Society in Jiangsu Province. She obtained her PhD degree in highway, urban road and airport engineering from Southeast University in 1996. From March 2001 to August 2002, she was engaged in the high temperature stability and low temperature fatigue performance of polymer modified asphalt mixture for steel bridge deck pavement at Institute of Highway Engineering at RWTH Aachen University. She became a full professor at Southeast University in 2004. From September 2008 to August 2009, she was engaged in green road research at the Pavement and Transportation Technology Center of University of Waterloo, Canada. Over the years, she is highly recognized for her devoted research in new materials and technologies for transportation infrastructure construction. She has achieved fruitful results in long-span steel bridge asphalt paving, anti-rutting technology of asphalt concrete pavement, porous asphalt technology, and research and development of environmentally friendly bio-renewable materials. In recent years, she has successfully applied asphalt concrete technology to the construction of high-speed railway track, developed prefabricated environmentally friendly building materials, and explored the micro-level testing technology and application of asphalt and mixtures.









Univ.-Prof. Dr.-Ing. habil. Markus Oeser is the Dean of the Faculty of Civil Engineering and the Head of the Chair of Highway Engineering and Director of the Institute of Highway Engineering at RWTH Aachen University, Germany. He received his Ph.D. degree from the Dresden University of Technology in 2004 and then carried out his postdoctoral research in Delft University of Technology until 2006. Between 2007 and 2011, he was a lecturer at the Institute of Geotechnics, Road Construction and Traffic Engineering, University of New South Wales (UNSW). From 2011, he has been the Chair-Professor of Highway Engineering and Director of the Institute of Highway Engineering at the RWTH Aachen University and he has been the Dean of the Faculty of Civil Engineering from 2016. Over the years he has been devoted to the systematic study of mechanics design and new material development of pavement structures. He has got great achievements on the application of numerical methods (Finite Element Method, Boundary Element Method and Semi-Analytical Finite Element Method, etc.) on pavement engineering and construction of constitutive models of pavement materials (elasto-visco-plastic models, hypo-elastic models, critical state concept, etc.). Moreover, he has deeply investigated on the design method of high-performance permeable pavement structure, development of polyurethane material and characterization of mechanical behavior of asphalt mixture at multiscale.



Mr. Haopeng Wang is a PhD researcher at the Section of Pavement Engineering, Faculty of Civil Engineering and Geosciences of Delft University of Technology. He obtained his BSc and MSc degrees from School of Transportation at Southeast University in 2013 and 2016, respectively. His research interests include multiphysics modelling of pavement materials and structures, polymer physics and chemistry, micromechanics of infrastructure materials, damage mechanisms in asphalt mixture (fracture, fatigue and healing), and sustainable pavement materials and technologies. He has published a series of high-quality academic journal/conference papers. He is also member of several international academic associations, e.g., Transportation Research Board (TRB), RILEM, International Society for Asphalt Pavements (ISAP), Academy of Pavement Science and Engineering (APSE), and International Association of Chinese Infrastructure Professionals (IACIP).