Comparison of the Interaction and Structure of Lignin in Pure Systems and in Asphalt Media by Molecular Dynamics Simulations

Abstract: Lignin is a class of organic aromatic polymers contributing to the rigidity and strength of plants and has been proposed as a modifier to improve asphalt performance on road pavement. However, contradicting experimental results on the lignin miscibility in asphalt were found from different studies, and lignin has been found to self-assemble in different solutions. Thus, investigating the interaction and microstructure of lignin in asphalt media in molecular detail is necessary. Molecular dynamics (MD) simulati… Show more

“…With the development of micro-scale numerical simulation technology, molecular simulation can visualize the morphological changes and chemical reactions of materials at the molecular level [ 10 ]. Molecular dynamics (MD) simulations are able to improve the understanding of these phenomena by combining theoretical approaches and computer technology, and enhance the investigation of the principles of material property improvement [ 11 , 12 , 13 , 14 ]. As a result, more and more researchers are applying MD in the field of polymer–asphalt compatibility.…”

Study of the Cold Curing Characteristics of Isocyanate-Modified Asphalt

“…With the development of micro-scale numerical simulation technology, molecular simulation can visualize the morphological changes and chemical reactions of materials at the molecular level [ 10 ]. Molecular dynamics (MD) simulations are able to improve the understanding of these phenomena by combining theoretical approaches and computer technology, and enhance the investigation of the principles of material property improvement [ 11 , 12 , 13 , 14 ]. As a result, more and more researchers are applying MD in the field of polymer–asphalt compatibility.…”

Study of the Cold Curing Characteristics of Isocyanate-Modified Asphalt