MPG.eBooks - Staff View: Application of Polymer Materials in Pavement Design

Read Now

Application of Polymer Materials in Pavement Design

This Special Issue comprises 17 research articles and 2 review articles, covering studies on both individual and composite polymer modifications. Topics include high-content polymer-modified bitumen, epoxy resin adhesives, SBS-modified bitumen, PE-modified bitumen, crumb-rubber-modified bitumen, and...

Full description

Bibliographic Details
Main Author:	Jiang, Wei
Other Authors:	Liu, Quantao, Norambuena-Contreras, Jose, Huang, Yue
Format:	eBook
Language:	English
Published:	Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:	Structure Low-temperature Performance Creep Analysis Film Thickness Hot Recycled Asphalt Mixture Rubberized Asphalt Rheological Properties Dense Asphalt Mix Phase Structure Selfhealing Level Viscoplastic Shift Model Vocs Molecular Dynamics Moisture Damage Xrd The Modification-rejuvenation Mechanism Hcpma Microwave Heating Factorial Design Asphalt Pavements Technology: General Issues / Bicssc Pavement De-icing Viscoelastic Continuum Damage Model High-content Polymer Modified Asphalt Degree Of Blending (dob) Nano-ovposs Functional Polymer Waste Fibers Road Engineering Cis-1, 4-polyisoprene Morphological Analysis Reclaimed Asphalt Binder Fatigue Lifetime Variance Analysis Response Surface Method Encapsulation Aging Durability Glass Transition Temperature Synthetic Fibers Low Service Temperature Salt Storage Pavement Recycled Engine Oil Bottom Dynamic Pore Water Pressure Asphalt Mix Design Surface Free Energy (sfe) Sbs Prediction Model Performance-based Transport Technology And Trades / Bicssc Self-healing Relaxation Time Spectrum Spectroscopic Analysis Creep Compliance Performance-related Specification Polyethylene Microscopic Mechanism Compatibility History Of Engineering And Technology / Bicssc Atomic Force Microscope (afm) Adhesion Characteristics Stone Mastic Asphalt Biodegradability Bitumen Asphalt Pavement Damage Mechanism Binder Bond Strength (bbs) Rejuvenators Pavement Materials Viscoelastic Behavior Post Hoc Analyses Inhibition Alginate Natural Fibers Organic Montmorillonite High Elastic Polymer Rheological Behaviors Asphalt Concrete Rap Waste Polyethylene Porous Asphalt Mix Neat And Polymer-modified Bitumens Salt Storage Asphalt Mastic Relaxation Modulus Sbs Modifier Low Temperatures Asphalt Crumb Rubber Shrp Test Mechanical Properties Gray Relational Analysis Asphalt Binder Calcium Alginate Capsules Sem Optimal Film Thickness Epoxy Resin Toughening Agent Modified Asphalt
Online Access:	https://www.mdpi.com/books/pdfview/book/8271 https://directory.doabooks.org/handle/20.500.12854...
Collection:	Directory of Open Access Books - Collection details see MPG.ReNa


LEADER	04993nma a2201513 u 4500
001	EB002194984
003	EBX01000000000000001332449
005	00000000000000.0
007	cr\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|
008	240202 \|\|\| eng
020			\|a 9783036592343
020			\|a books978-3-0365-9234-3
020			\|a 9783036592350
100	1		\|a Jiang, Wei
245	0	0	\|a Application of Polymer Materials in Pavement Design \|h Elektronische Ressource
260			\|a Basel \|b MDPI - Multidisciplinary Digital Publishing Institute \|c 2023
300			\|a 1 electronic resource (364 p.)
653			\|a structure
653			\|a low-temperature performance
653			\|a creep analysis
653			\|a film thickness
653			\|a hot recycled asphalt mixture
653			\|a rubberized asphalt
653			\|a rheological properties
653			\|a dense asphalt mix
653			\|a phase structure
653			\|a selfhealing level
653			\|a viscoplastic shift model
653			\|a VOCs
653			\|a molecular dynamics
653			\|a moisture damage
653			\|a XRD
653			\|a the modification-rejuvenation mechanism
653			\|a HCPMA
653			\|a microwave heating
653			\|a factorial design
653			\|a asphalt pavements
653			\|a Technology: general issues / bicssc
653			\|a pavement de-icing
653			\|a viscoelastic continuum damage model
653			\|a high-content polymer modified asphalt
653			\|a degree of blending (DOB)
653			\|a nano-OvPOSS
653			\|a functional polymer
653			\|a waste fibers
653			\|a road engineering
653			\|a cis-1, 4-polyisoprene
653			\|a morphological analysis
653			\|a reclaimed asphalt binder
653			\|a fatigue lifetime
653			\|a variance analysis
653			\|a response surface method
653			\|a encapsulation
653			\|a aging durability
653			\|a glass transition temperature
653			\|a synthetic fibers
653			\|a low service temperature
653			\|a salt storage pavement
653			\|a recycled engine oil bottom
653			\|a dynamic pore water pressure
653			\|a asphalt mix design
653			\|a surface free energy (SFE)
653			\|a SBS
653			\|a prediction model
653			\|a performance-based
653			\|a Transport technology and trades / bicssc
653			\|a self-healing
653			\|a relaxation time spectrum
653			\|a spectroscopic analysis
653			\|a creep compliance
653			\|a performance-related specification
653			\|a polyethylene
653			\|a microscopic mechanism
653			\|a compatibility
653			\|a History of engineering and technology / bicssc
653			\|a atomic force microscope (AFM)
653			\|a adhesion characteristics
653			\|a stone mastic asphalt
653			\|a biodegradability
653			\|a bitumen
653			\|a asphalt pavement
653			\|a damage mechanism
653			\|a binder bond strength (BBS)
653			\|a rejuvenators
653			\|a pavement materials
653			\|a viscoelastic behavior
653			\|a post hoc analyses
653			\|a inhibition
653			\|a alginate
653			\|a natural fibers
653			\|a organic montmorillonite
653			\|a high elastic polymer
653			\|a rheological behaviors
653			\|a asphalt concrete
653			\|a RAP
653			\|a waste polyethylene
653			\|a porous asphalt mix
653			\|a neat and polymer-modified bitumens
653			\|a salt storage asphalt mastic
653			\|a relaxation modulus
653			\|a SBS modifier
653			\|a low temperatures
653			\|a asphalt
653			\|a crumb rubber
653			\|a SHRP test
653			\|a mechanical properties
653			\|a gray relational analysis
653			\|a asphalt binder
653			\|a calcium alginate capsules
653			\|a SEM
653			\|a optimal film thickness
653			\|a epoxy resin
653			\|a toughening agent
653			\|a modified asphalt
700	1		\|a Liu, Quantao
700	1		\|a Norambuena-Contreras, Jose
700	1		\|a Huang, Yue
041	0	7	\|a eng \|2 ISO 639-2
989			\|b DOAB \|a Directory of Open Access Books
500			\|a Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
024	8		\|a 10.3390/books978-3-0365-9234-3
856	4	0	\|u https://www.mdpi.com/books/pdfview/book/8271 \|7 0 \|x Verlag \|3 Volltext
856	4	2	\|u https://directory.doabooks.org/handle/20.500.12854/128804 \|z DOAB: description of the publication
082	0		\|a 900
082	0		\|a 333
082	0		\|a 380
082	0		\|a 600
082	0		\|a 620
520			\|a This Special Issue comprises 17 research articles and 2 review articles, covering studies on both individual and composite polymer modifications. Topics include high-content polymer-modified bitumen, epoxy resin adhesives, SBS-modified bitumen, PE-modified bitumen, crumb-rubber-modified bitumen, and biopolymeric capsules and bitumen rejuvenators.

Application of Polymer Materials in Pavement Design

Similar Items