Rheo-chalmers

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...

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

30.06.2025 09:46 — 👍 2    🔁 1    💬 0    📌 0

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.
/M

19.06.2025 09:24 — 👍 1    🔁 1    💬 0    📌 0

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

17.12.2024 13:03 — 👍 3    🔁 2    💬 0    📌 0

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...

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...

02.12.2024 08:42 — 👍 3    🔁 2    💬 0    📌 0

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

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

25.11.2024 10:56 — 👍 3    🔁 2    💬 0    📌 1

@mbekson.bsky.social will also make sure to spell check his posts in the future 🫣😀

25.11.2024 14:33 — 👍 0    🔁 0    💬 0    📌 0

Post made by @mbekson.bsky.social will be marked at the end with /M, posts made by Roland will be marked at the end by /R

25.11.2024 14:18 — 👍 0    🔁 0    💬 0    📌 0

Group photo, August 2024.

This is our first post here 🎉
We'll be posting occasioanly news from our Rheology and Processing of Soft Matter group at Chalmers.

25.11.2024 14:16 — 👍 0    🔁 1    💬 2    📌 0