Simplified Industrial Formulations. Design Challenges

Publication Reference: 
Author Last Name: 
Jan Vermant and Lucio Isa
Report Type: 
ARR - Annual Report
Research Area: 
Wet Systems
Publication Year: 

Our goals within the IFPRI project are threefold
1. To explore how, moving away from model systems containing spherical colloids
with near hard interactions, we can widen the range of rheological responses by
changing the properties of the building blocks of the suspensions, so that even in
simple formulations a wide range of behaviors can be ”built in”, i.e. obtaining
formulation guidelines to do “more with less” or simplifying formulations from
within. The properties aimed for, after discussing with IFPRI members, are the
control of shear thinning/thickening and the control of the thixotropic response.
2. To further develop a limited number of rheological and structural tools to interrogate
the rheological response of the such dispersions, focusing on
• Advanced rheological methods which allow for stress deconvolution such as
high frequency rheometry and superposition rheometry, which help identify
the nature of the stress during flow (elastic or viscous), which helps to identify
which aspect of the particles or formulation controls the rheology
• High resolution confocal microscopy to probe structural development in situ
during flow (4D imaging)
• Local scale tribological measurements using AFM.
3. Apply these methods to simplified industrial dispersion by industrial partners and
compare with the formulation guidelines obtained from (1).