Physico-chemistry control of the linear viscoelastic behaviour of bitumen/montmorillonite/MDI ternary composites: Effect of the modification sequence

Abstract

Binary bituminous composites consisting of asphaltic bitumen and 10wt.% organically modified montmorillonite (OMMT) Cloisite 20A®, and ternary composites, also containing 2wt.% polymeric MDI (diphenylmethane diisocyanate), were prepared by melt blending. In order to appraise the effect that the order of addition of bitumen modifiers has on the composites rheological properties, dynamic shear temperature sweep measurements were conducted. If the MDI curing was prolonged for up to 24h, quite notable differences were observed between ternary blends at which the OMMT was added before and after MDI modification. On the one hand, a later MDI addition increased the binary composite linear viscoelastic (LVE) moduli at low-to-intermediate temperatures, but provoked a marked reduction at the highest temperatures studied. By contrast, an inversion in the order of addition showed to enhance the rheological response in the entire range of temperature studied. Optical microscopy observations and, mainly, atomic force microscopy (AFM) scans suggest the reactive agglomeration of OMMT into large domains if MDI is added in a second step. However, if MDI is firstly added, the reactive modification is mainly targeted at the bitumen matrix and then at the interaction between that and the hydroxyl groups located in the MMT.