Add to ORKGAs asphalt ages, its resistance to shear diminishes due to a change in composition, resulting in the need for repaving of roads. This research aims to study Lignin as an asphalt additive, which exhibits properties that can increase the resistance to degradation due to aging
Oxidation is the primary cause of aging in asphalt pavements. The use of an antioxidant as a perform...
ABSTRACT The study and development of new technologies for paving materials has been greatly motivat...
Lignin as an antioxidant in asphalt binder could help slow oxidative aging and delay pavement failur...
Additives to asphalt are typically used to improve the properties such as increase its resistance to...
Lignin is abundant in nature. The use of lignin in the asphalt pavement industry can improve pavemen...
In order to study the micro-aging mechanism of lignin-modified asphalt, different asphalt samples we...
In order to study the aging process of lignin-modified asphalt and explore the effect of lignin on t...
The objective of this study was to introduce lignin as a bio-additive to modify the base asphalt and...
As bitumen oxidizes, material stiffening and embrittlement occur, and bitumen eventually cracks. The...
Asphalt is one of the materials used as a road-making material. Needs for ashpalt modification are c...
Oxidation is the primary cause of long-term aging in asphalt pavements. As a pavement oxidizes, it s...
Lignin is one of major by-product from wood and paper industry. As natural biopolymer, it could be a...
This study aims to introduce lignin as a bio-additive to modify the base asphalt and investigate the...
In recent years, lignin has been receiving more coverage as an asphalt modifier because of its wide ...
During oxidative aging, oxygen reacts with active molecules present in bitumen producing polar compo...
Oxidation is the primary cause of aging in asphalt pavements. The use of an antioxidant as a perform...
ABSTRACT The study and development of new technologies for paving materials has been greatly motivat...
Lignin as an antioxidant in asphalt binder could help slow oxidative aging and delay pavement failur...
Additives to asphalt are typically used to improve the properties such as increase its resistance to...
Lignin is abundant in nature. The use of lignin in the asphalt pavement industry can improve pavemen...
In order to study the micro-aging mechanism of lignin-modified asphalt, different asphalt samples we...
In order to study the aging process of lignin-modified asphalt and explore the effect of lignin on t...
The objective of this study was to introduce lignin as a bio-additive to modify the base asphalt and...
As bitumen oxidizes, material stiffening and embrittlement occur, and bitumen eventually cracks. The...
Asphalt is one of the materials used as a road-making material. Needs for ashpalt modification are c...
Oxidation is the primary cause of long-term aging in asphalt pavements. As a pavement oxidizes, it s...
Lignin is one of major by-product from wood and paper industry. As natural biopolymer, it could be a...
This study aims to introduce lignin as a bio-additive to modify the base asphalt and investigate the...
In recent years, lignin has been receiving more coverage as an asphalt modifier because of its wide ...
During oxidative aging, oxygen reacts with active molecules present in bitumen producing polar compo...
Oxidation is the primary cause of aging in asphalt pavements. The use of an antioxidant as a perform...
ABSTRACT The study and development of new technologies for paving materials has been greatly motivat...
Lignin as an antioxidant in asphalt binder could help slow oxidative aging and delay pavement failur...