Multi-scale characterization of lignin modified bitumen using experimental and molecular dynamics simulation methods
出版年份 2021 全文链接
标题
Multi-scale characterization of lignin modified bitumen using experimental and molecular dynamics simulation methods
作者
关键词
Bitumen, Lignin, Molecular dynamics simulation, Rheology, Thermodynamic characteristics
出版物
CONSTRUCTION AND BUILDING MATERIALS
Volume 287, Issue -, Pages 123058
出版商
Elsevier BV
发表日期
2021-03-25
DOI
10.1016/j.conbuildmat.2021.123058
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Understanding the temperature and loading frequency effects on physicochemical interaction ability between mineral filler and asphalt binder using molecular dynamic simulation and rheological experiments
- (2020) Fan Li et al. CONSTRUCTION AND BUILDING MATERIALS
- Investigating Change of Polydispersity and Rheology of Crude Oil and Bitumen Due to Asphaltene Oxidation
- (2020) Daniel Oldham et al. ENERGY & FUELS
- Modelling crack initiation in bituminous binders under a rotational shear fatigue load
- (2020) Yangming Gao et al. INTERNATIONAL JOURNAL OF FATIGUE
- Role of Chemical Composition of Recycling Agents in Their Interactions with Oxidized Asphaltene Molecules
- (2020) Elham Fini et al. JOURNAL OF MATERIALS IN CIVIL ENGINEERING
- Effects of Wax-Impregnated Nanozeolites on Bitumen’s Thermomechanical Properties
- (2020) Alireza Samieadel et al. ACS Sustainable Chemistry & Engineering
- Sustainable lignin to enhance asphalt binder oxidative aging properties and mix properties
- (2019) Shams Arafat et al. JOURNAL OF CLEANER PRODUCTION
- Use of lignin biopolymer from industrial waste as bitumen extender for asphalt mixtures
- (2019) Ignacio Pérez Pérez et al. JOURNAL OF CLEANER PRODUCTION
- Investigation on Self-Healing Behavior of Asphalt Binder Using a Six-Fraction Molecular Model
- (2019) Xin Qu et al. JOURNAL OF MATERIALS IN CIVIL ENGINEERING
- Controlled Radical Polymerization of Crude Lignin Bio-oil Containing Multihydroxyl Molecules for Methacrylate Polymers and the Potential Applications
- (2019) Wangda Qu et al. ACS Sustainable Chemistry & Engineering
- Molecular dynamics investigation of interfacial adhesion between oxidised bitumen and mineral surfaces
- (2019) Yangming Gao et al. APPLIED SURFACE SCIENCE
- The performance of asphalt mixtures modified with lignin fiber and glass fiber: A review
- (2019) Dong Luo et al. CONSTRUCTION AND BUILDING MATERIALS
- Study on the Mechanical Properties of Rubber Asphalt by Molecular Dynamics Simulation
- (2019) Fucheng Guo et al. JOURNAL OF MOLECULAR MODELING
- High-temperature rheological behavior and fatigue performance of lignin modified asphalt binder
- (2019) Junfeng Gao et al. CONSTRUCTION AND BUILDING MATERIALS
- Molecular dynamics study on influence of Nano-ZnO/SBS on physical properties and molecular structure of asphalt binder
- (2019) Manman Su et al. FUEL
- Chemical and Rheological Evaluation of Aged Lignin-Modified Bitumen
- (2019) Yi Zhang et al. Materials
- Performance properties of asphalt modified with reactive terpolymer
- (2018) Tacettin Geckil et al. CONSTRUCTION AND BUILDING MATERIALS
- Impact of minerals and water on bitumen-mineral adhesion and debonding behaviours using molecular dynamics simulations
- (2018) Yangming Gao et al. CONSTRUCTION AND BUILDING MATERIALS
- Molecular dynamics study of rejuvenator effect on RAP binder: Diffusion behavior and molecular structure
- (2018) Guangji Xu et al. CONSTRUCTION AND BUILDING MATERIALS
- High-temperature, low-temperature and weathering aging performance of lignin modified asphalt binders
- (2018) K.B. Batista et al. INDUSTRIAL CROPS AND PRODUCTS
- Study on the effect of aging on physical properties of asphalt binder from a microscale perspective
- (2018) Xin Qu et al. CONSTRUCTION AND BUILDING MATERIALS
- Performance characteristics of asphalt materials based on molecular dynamics simulation – A review
- (2018) Zixuan Chen et al. CONSTRUCTION AND BUILDING MATERIALS
- Diffusion and interaction mechanism of rejuvenating agent with virgin and recycled asphalt binder: a molecular dynamics study
- (2018) Guangji Xu et al. MOLECULAR SIMULATION
- Enhanced Self-Healing Process of Sustainable Asphalt Materials Containing Microcapsules
- (2017) Daquan Sun et al. ACS Sustainable Chemistry & Engineering
- Lignin as Renewable and Superior Asphalt Binder Modifier
- (2017) Shangxian Xie et al. ACS Sustainable Chemistry & Engineering
- Use of molecular dynamics to investigate diffusion between virgin and aged asphalt binders
- (2016) Yongjie Ding et al. FUEL
- Effect of Carbon Black on the High and Low Temperature Properties of Bitumen
- (2016) Tacettin Geckil et al. International Journal of Civil Engineering
- Molecular Dynamics Simulation to Investigate the Influence of SBS on Molecular Agglomeration Behavior of Asphalt
- (2015) Yongjie Ding et al. JOURNAL OF MATERIALS IN CIVIL ENGINEERING
- Glass Transition and Molecular Mobility in Styrene–Butadiene Rubber Modified Asphalt
- (2015) Fardin Khabaz et al. JOURNAL OF PHYSICAL CHEMISTRY B
- Investigation of asphalt aging behaviour due to oxidation using molecular dynamics simulation
- (2015) Jielin Pan et al. MOLECULAR SIMULATION
- Chemical compositions of improved model asphalt systems for molecular simulations
- (2013) Derek D. Li et al. FUEL
- A first-principles based chemophysical environment for studying lignins as an asphalt antioxidant
- (2012) Tongyan Pan CONSTRUCTION AND BUILDING MATERIALS
- The investigation and comparison effects of SBS and SBS with new reactive terpolymer on the rheological properties of bitumen
- (2012) Perviz Ahmedzade CONSTRUCTION AND BUILDING MATERIALS
- Use of Molecular Dynamics to Investigate Self-Healing Mechanisms in Asphalt Binders
- (2010) Amit Bhasin et al. JOURNAL OF MATERIALS IN CIVIL ENGINEERING
Publish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn MoreAsk a Question. Answer a Question.
Quickly pose questions to the entire community. Debate answers and get clarity on the most important issues facing researchers.
Get Started