Rheo-chalmers
@rheo-chalmers.bsky.social
We explore the flow and deformation of soft matter, combining cutting-edge rheology with advanced characterisation to tackle scientific and industrial challenges across materials, processing, and multifunctional applications.
https://www.rheo-chalmers.se/
https://www.rheo-chalmers.se/
New paper out 🎉
Post-extrusion behavior matters! We explore how Carbopol–PEO blends can be tuned to control die swelling and 3D printing. SAXS at @maxiv helped us link rheology to nanoscale structure.
Full paper:
onlinelibrary.wiley.com/doi/10.1002/...
#rheology #3dprinting #softmatter #MAXIV
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Post-extrusion behavior matters! We explore how Carbopol–PEO blends can be tuned to control die swelling and 3D printing. SAXS at @maxiv helped us link rheology to nanoscale structure.
Full paper:
onlinelibrary.wiley.com/doi/10.1002/...
#rheology #3dprinting #softmatter #MAXIV
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Tunable Elasto‐Viscoplastic Properties of Polymer Blends for 3D Printing Applications
This study explores the tunable elasto-viscoplastic properties of Carbopol-PEO blends for 3D printing. Using rheo-SAXS and dimensionless analysis, it identifies optimal printability regimes and revea...
onlinelibrary.wiley.com
June 30, 2025 at 9:47 AM
New paper out 🎉
Post-extrusion behavior matters! We explore how Carbopol–PEO blends can be tuned to control die swelling and 3D printing. SAXS at @maxiv helped us link rheology to nanoscale structure.
Full paper:
onlinelibrary.wiley.com/doi/10.1002/...
#rheology #3dprinting #softmatter #MAXIV
/m
Post-extrusion behavior matters! We explore how Carbopol–PEO blends can be tuned to control die swelling and 3D printing. SAXS at @maxiv helped us link rheology to nanoscale structure.
Full paper:
onlinelibrary.wiley.com/doi/10.1002/...
#rheology #3dprinting #softmatter #MAXIV
/m
Just back from the WWSC International Conference 2025 (conference2025.wwsc.se) in Stockholm! Great days exploring sustainable wood-based materials. Kesavan, Roland, and Kim (MAX IV) shared our latest on flow instabilities, rheology, mechanical properties & X-ray scattering.
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June 19, 2025 at 9:24 AM
Just back from the WWSC International Conference 2025 (conference2025.wwsc.se) in Stockholm! Great days exploring sustainable wood-based materials. Kesavan, Roland, and Kim (MAX IV) shared our latest on flow instabilities, rheology, mechanical properties & X-ray scattering.
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Reposted by Rheo-chalmers
The MAX IV #CoSAXS beamline group has a #postdoctoral position open for the EU Horizon Europe project #RIANA. The project aims to advance research in the fields of #nanoscience & #nanotechnology. Read more & apply here 👉 lu.varbi.com/en/what:job/... #SAXS #WAXS #postdoc #job #research
December 17, 2024 at 1:03 PM
The MAX IV #CoSAXS beamline group has a #postdoctoral position open for the EU Horizon Europe project #RIANA. The project aims to advance research in the fields of #nanoscience & #nanotechnology. Read more & apply here 👉 lu.varbi.com/en/what:job/... #SAXS #WAXS #postdoc #job #research
Reposted by Rheo-chalmers
New theme: RheoMAXESS
– Our aim is to make MAX IV and ESS into an epicenter for scattering techniques with focus on rheology. It’s a precursor to developing new materials for sustainability and different biomedical applications, says Roland Kádár, Prof. at Chalmers.
www.linxs.se/news/2024/11...
– Our aim is to make MAX IV and ESS into an epicenter for scattering techniques with focus on rheology. It’s a precursor to developing new materials for sustainability and different biomedical applications, says Roland Kádár, Prof. at Chalmers.
www.linxs.se/news/2024/11...
LINXS' theme RheoMAXESS aims to make MAX IV and ESS into an epicenter for scattering techniques with a focus on rheology — LINXS
– Our aim is to make MAX IV and ESS into an epicenter for scattering techniques with a focus on rheology. It’s a precursor to developing new materials for energy, sustainability, and different biomedi...
www.linxs.se
December 2, 2024 at 8:42 AM
New theme: RheoMAXESS
– Our aim is to make MAX IV and ESS into an epicenter for scattering techniques with focus on rheology. It’s a precursor to developing new materials for sustainability and different biomedical applications, says Roland Kádár, Prof. at Chalmers.
www.linxs.se/news/2024/11...
– Our aim is to make MAX IV and ESS into an epicenter for scattering techniques with focus on rheology. It’s a precursor to developing new materials for sustainability and different biomedical applications, says Roland Kádár, Prof. at Chalmers.
www.linxs.se/news/2024/11...
Reposted by Rheo-chalmers
Researchers from the #UniversityofGlasgow use 'the force' of MAX IV to alter the structure & control properties of supramolecular #hydrogels. The gels hold promise for the developmt of biomimetic #materials & appls in #optoelectronics. Read more-> www.maxiv.lu.se/article/forg... #CoSAXS #physics
Forging designer supramolecular hydrogels – MAX IV
A research group from the University of Glasgow in the United Kingdom reports in the journal Nature Synthesis that dynamic supramolecular hydrogels can be desig
www.maxiv.lu.se
November 25, 2024 at 10:56 AM
Researchers from the #UniversityofGlasgow use 'the force' of MAX IV to alter the structure & control properties of supramolecular #hydrogels. The gels hold promise for the developmt of biomimetic #materials & appls in #optoelectronics. Read more-> www.maxiv.lu.se/article/forg... #CoSAXS #physics
This is our first post here 🎉
We'll be posting occasioanly news from our Rheology and Processing of Soft Matter group at Chalmers.
We'll be posting occasioanly news from our Rheology and Processing of Soft Matter group at Chalmers.
November 25, 2024 at 2:16 PM
This is our first post here 🎉
We'll be posting occasioanly news from our Rheology and Processing of Soft Matter group at Chalmers.
We'll be posting occasioanly news from our Rheology and Processing of Soft Matter group at Chalmers.