Assessment of microstructure, physical and thermal properties of bitumen modified with LDPE/GTR/elastomer ternary blends

Assessment of microstructure, physical and thermal properties of bitumen modified with LDPE/GTR/elastomer ternary blends

•Applied LDPE/GTR/elastomer ternary blends as thermoplastic modifiers for bitumen.•Evaluated interfacial interaction between bitumen and thermoplastic modifiers.•Determined factors affecting processing and stability of the modified bitumens.•Explained enhanced properties of modified bitumen in terms...

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Bibliographic Details
Published in:Construction & building materials Vol. 106; pp. 160 - 167
Main Authors: Formela, Krzysztof, Sulkowski, Michał, Saeb, Mohammad Reza, Colom, Xavier, Haponiuk, Józef T.
Format: Journal Article Publication
Language:English
Published: Elsevier Ltd 01-03-2016
Elsevier B.V
Subjects:
Analysis
Betum
Bitumen
Bituminous materials
Cautxú
Elastomers
Enginyeria dels materials
Enginyeria química
Extrusion
Extrusió
Ground tire rubber
GTR
Materials
Modified bitumen
Pneumàtics
Reciclatge
Reciclatge (Residus, etc.)
Recycling
Rubber
Termoplàstics
Thermal properties
Thermoplastic blends
Thermoplastic composites
Tires, Rubber
Àrees temàtiques de la UPC
United States
Extrusion
Thermoplastic blends
Modified bitumen
Recycling
Ground tire rubber
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Summary:•Applied LDPE/GTR/elastomer ternary blends as thermoplastic modifiers for bitumen.•Evaluated interfacial interaction between bitumen and thermoplastic modifiers.•Determined factors affecting processing and stability of the modified bitumens.•Explained enhanced properties of modified bitumen in terms of microstructure. LDPE/GTR/elastomer ternary blends with variable LDPE/GTR ratio and constant elastomer content were prepared via melt-compounding. Obtained LDPE/GTR/elastomer blends were applied as thermoplastic modifiers into bitumen. Microstructure, physical and thermal properties of the modified bitumen were determined. It was observed that chemical composition of LDPE/GTR/elastomer blends has significant influence on their density and rheological behavior, which are also main factors affecting the dispersion of LDPE/GTR/elastomer blends into bitumen matrix and interfacial interactions between used components. Microstructure and thermal behavior of modified bitumen confirmed that physical interactions between bitumen and LDPE/GTR/elastomer blends are limited with increasing content of GTR. This phenomenon is due to mainly cross-linked structure of GTR and its low flowability. The conducted investigations showed that interfacial interactions between of thermoplastic modifier and bitumen, therefore the conventional and thermal properties of modified bitumen can be improved and easily modified by changing composition of LDPE/GTR/elastomer blends.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2015.12.108