Surfactants And Interfacial Phenomena

https://arpi.unipi.it/bitstream/11568/798598/2/polacco%20798598.pdf

A review of the fundamentals of polymer-modified asphalts: Asphalt/polymer interactions and principles of compatibility

Morphology, rheology, and physical properties of polymer-modified asphalt binders

Molecular dynamics study of oxidative aging effect on asphalt binder properties

http://eprints.um.edu.my/8811/1/Investigation_of_the_possibility_of_using_waste_cooking_oil_as_a_rejuvenating_agent_for_aged_bitumen.pdf

Investigation of the possibility of using waste cooking oil as a rejuvenating agent for aged bitumen

The present invention relates to a viscoelastic material characterized in that it is obtained by means of a hydrothermal liquefaction process from a biomass comprising at least one microalgae and comprising at least 40% by weight of water relative to the weight total biomass.

Viscoelastic material obtained by hydrothermal liquefaction of microalgues

Regular and long-term infrastructures monitoring is fundamental for the assessment of road network conditions and the activation of adequate maintenance measures. When it comes to embedded sensing technologies for pavement monitoring much attention is paid to measurements accuracy and their understanding. Due to the viscoelastic behavior of the asphalt mix, the road pavement response depends on time and temperature. This paper aims at developing a methodology to adjust the strains measured within the pavement to a reference temperature. This methodology is based on the mechanical characteristics of the pavement and its sensitivity to temperature variations.

Procedure for Temperature Correction of Strains Measured in a Road Pavement

La construction additive connait un developpement tres rapide y compris dans le domaine des constructions en beton [1, 2]. Pour le moment, la majorite des applications utilise l'extrusion d'un materiau cimentaire dispose en couches au moyen d'un bras robotise pourvu d'une buse. D'autres techniques sont cependant envisageables comme l'utilisation d'une technologie de type jet d'encre et la collaboration d'essaim de robots (swarm approach [1]).

https://hal-enpc.archives-ouvertes.fr/hal-02119411/document

Biomimétisme et impression 3D : que peut-on apprendre des abeilles ?

La presente invention concerne un materiau viscoelastique caracterise en ce qu'il est obtenu par recuperation de la phase hydrophobe issue d'un procede de liquefaction hydrothermale a partir d'une biomasse comprenant au moins une microalgue et comprenant au moins 40%en poids d'eau par rapport au poids total de la biomasse, ladite phase hydrophobe, comprenant une huile viscoelastique et des residus solides, dans laquelle la quantite de residus solides est comprise entre 15% et 30% en poids par rapport au poids total de la phase hydrophobe.

Materiau viscoelastique obtenu par liquefaction hydrothermale de microalgues

The present invention relates to a viscoelastic material characterized in that it is obtained by means of a hydrothermal liquefaction process from a biomass comprising at least one microalga and comprising at least 40% by weight of water based on the weight total biomass.

Emmanuel Chailleux

Papers

Viscoelastic material obtained by hydrothermal liquefaction of microalgues

Procedure for Temperature Correction of Strains Measured in a Road Pavement

Biomimétisme et impression 3D : que peut-on apprendre des abeilles ?

Materiau viscoelastique obtenu par liquefaction hydrothermale de microalgues

Material viscoelastic obtained by hydrothermal liquefaction of microalgae