Publications for Stefan Lindström
Co-author map based on ISI articles 2007-

Publications mentioned in social media 7 times*

Keywords

wall shear motion modulus model materials gels fluid flow flexible fibers failure equations elastic dynamics drop creep cellulose artery adhesion

Journal Articles

Thomas Gibaud, Christophe Perge, Stefan B Lindström, Nicolas Taberlet and Sebastien Manneville
  Multiple yielding processes in a colloidal gel under large amplitude oscillatory stress
  Soft Matter, 2016, 12(6), 1701-1712.
 Web of Science® Times Cited: 1

Pontus Olin, Stefan Lindström and Lars Wagberg
  Trapping of Water Drops by Line-Shaped Defects on Superhydrophobic Surfaces
  Langmuir, 2015, 31(23), 6367-6374.

Stefan Lindström, Ganarupan Satha and Anders Klarbring
  Extension of Murray's law including nonlinear mechanics of a composite artery wall
  Biomechanics and Modeling in Mechanobiology, 2015, 14(1), 83-91.
   Fulltext  PDF  

Christopher Carrick, Stefan Lindström, Per Tomas Larsson and Lars Wågberg
  Lightweight, highly compressible, noncrystalline cellulose capsules
  Langmuir, 2014, 30(26), 7635-7644.
 Web of Science® Times Cited: 2

Jelena Andric, Stefan B Lindström, Srdjan Sasic and Håkan Nilsson
  Rheological properties of dilute suspensions of rigid and flexible fibers
  Journal of Non-Newtonian Fluid Mechanics, 2014, 212, 36-46.
 Web of Science® Times Cited: 1

Stefan B Lindström, Lars Johansson and Nils R. Karlsson
  Metastable states and activated dynamics in thin-film adhesion to patterned surfaces
 
Altmetric usage: 5

  Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, 2014, 89, 062401-1-062401-11.
   Fulltext  PDF  

Ganarupan Satha, Stefan B. Lindström and Anders Klarbring
  A goal function approach to remodeling of arteries uncovers mechanisms for growth instability
  Biomechanics and Modeling in Mechanobiology, 2014, 13(6), 1243-1259.
   Fulltext  PDF  
 Web of Science® Times Cited: 2

Jelena Andric, Sam T. Fredriksson, Stefan B Lindström, Srdjan Sasic and Håkan Nilsson
  A study of a flexible fiber model and its behavior in DNS of turbulent channel flow
  Acta Mechanica, 2013, 224(10), 2359-2374.
 Web of Science® Times Cited: 3

Stefan Lindström, Artem Kulachenko, Louise M. Jawerth and David A. Vader
  Finite-strain, finite-size mechanics of rigidly cross-linked biopolymer networks
 
Altmetric usage: 1

  Soft Matter, 2013, 9(30), 7302-7313.
   Fulltext  PDF  
 Web of Science® Times Cited: 6

Pontus Olin, Stefan B. Lindström, Torbjörn Pettersson and Lars Wågberg
  Water drop friction on superhydrophobic surfaces
 
Altmetric usage: 1

  Langmuir, 2013, 29(29), 9079-9089.
 Web of Science® Times Cited: 8

Andreas Fall, Stefan B Lindström, Joris Sprakel and Lars Wågberg
  A physical cross-linking process of cellulose nanofibril gels with shear-controlled fibril orientation
  Soft Matter, 2013, 9, 1852-1863.
 Web of Science® Times Cited: 25

Stefan Lindström, Thomas E Kodger, Joris Sprakel and David A Weitz
  Structures, stresses, and fluctuations in the delayed failure of colloidal gels
  Soft Matter, 2012, 8(13), 3657-3664.
   Fulltext  PDF  
 Web of Science® Times Cited: 21

Henriëtte E Bakker, Stefan Lindström and Joris Sprakel
  Geometry- and rate-dependent adhesive failure of micropatterned surfaces
  Journal of Physics: Condensed Matter, 2012, 24(6), 065103.
 Web of Science® Times Cited: 2

Stefan B Lindström, Erdem Karabulut, Artem Kulachenko, Houssine Sehaqui and Lars Wågberg
  Mechanosorptive creep in nanocellulose materials
  Cellulose (London), 2012, 19(3), 809-819.
   Fulltext  PDF  
 Web of Science® Times Cited: 5

Sergiy Lavrykov, Stefan B Lindström, K. M. Singh and Bandaru Ramarao
  3D network simulations of paper structurewith fines and fillers
  Nordic Pulp and Paper Research Journal, 2012, 27(2), 256-263.
 Web of Science® Times Cited: 1

Artem Kulachenko, Thibaud Denoyelle, Sylvain Galland and Stefan B Lindström
  Elastic properties of cellulose nanopaper
  Cellulose (London), 2012, 19(3), 793-807.
 Web of Science® Times Cited: 24

Joris Sprakel, Stefan B Lindström, T. E. Kodger and D. A. Weitz
  Stress enhancement in the delayed yielding of colloidal gels
  Physical Review Letters, 2011, 106(24), 248303.

H. S. Wiklund, Stefan B Lindström and T. Uesaka
  Boundary condition considerations in lattice Boltzmann formulations of wetting binary fluids
  Computer Physics Communications, 2011, 182(10), 2192-2200.

M. Holmvall, Stefan B Lindström @FSCN and T. Uesaka
  Simulation of two-phase flow with moving immersed boundaries
  International Journal for Numerical Methods in Fluids, 2011, 67(12), 2062-2080.

Andreas B. Fall, Stefan B Lindström, Ola Sundman, Lars Ödberg and Lars Wågberg
  Colloidal stability of aqueous nanofibrillated cellulose dispersions
  Langmuir, 2011, 27(18), 11332-11338.

M. Holmvall, T. Uesaka, F. Drolet and Stefan B Lindström
  Transfer of a microfluid to a stochastic fiber network
  Journal of Fluids and Structures, 2011, 27(11), 937-946.

J. Hämäläinen, Stefan B Lindström, T. Hämäläinen and H. Niskanen
  Papermaking fiber suspension flow simulations at multiple scales
  Journal of Engineering Mathematics, 2011, 71(1), 55-79.

Stefan B Lindström, D. A. Vader, Artem Kulachenko and D. A. Weitz
  Biopolymer network geometries: Characterization, regeneration, and elastic properties
  Physical Review E, 2010, 82(5), 051905.

Stefan B Lindström and Tetsu Uesaka
  A numerical investigation of the rheology of fiber suspensions
  Physis of Fluids, 2009, 21(8), 083301-1-083301-18.

Stefan B Lindström and T. Uesaka
  Particle-level simulation of forming of the fiber network in papermaking
  International Journal of Engineering Science, 2008, 46(9), 858-876.

Stefan B Lindström and Tetsu Uesaka
  Simulation of semidilute suspensions of non-Brownian fibers in shear flow
  the Journal of chemical Physics, 2008, 128(2), 024901-1-024901-14.

Stefan B Lindström and T. Uesaka
  Simulation of the motion of flexible fibers in viscous fluid flow
  Phys. Fluids, 2007, 19(11), 113307-1-113307-16.

Chapters in Books

Stefan B Lindström, N. T. Cervin and L. Wågberg
  Thermally activated capillary intrusion of water into cellulose fiber-based materials
  The proceedings of the Fundamental and Applied Pulp & Paper Modelling Symposium 2011: August 24-28 2011, Concordia University, Montréal, Canada, PAPTAC, 2011, 13-26.


Stefan B Lindström, Tetsu Uesaka and U. Hirn
  Evolution of the paper structure along the length of a twin-wire former
  14th Fund. Res. Symp., The Pulp and Paper Fundamental Research Society, 2009, 207-245.


Conference Articles

Christophe Perge, Stefan B Lindström, Nicolas Taberlet, Thomas Gibaud and Sebastien Manneville
  Large amplitude oscillatory stress and fatigue in colloidal gels
  Proceedings of 10th Annual European Rheology Conference, 2015.


Stefan B Lindström and Carl-Johan Thore
  10000 mechanics problems at the press of a button
  Proceedings of Svenska Mekanikdagar, 2015.


  Fulltext PDF

Jelena Andric, Stefan B Lindström, Srdjan Sasic and Hakan Nilsson
  Numerical investigation of fiber flocculation in the air flow of an asymmetrical diffuser
  Proceedings of the 12th International Conference on Nanochannels, Microchannels and Minichannels (ICNMM), 2014.


Jelena Andric, Stefan B Lindström, Srdjan Sasic and Håkan Nilsson
  A particle-level rigid fiber model for high-Reynolds number flow, implemented in a general-purpose CFD code
  8th International Conference on Multiphase Flow ICMF 2013, Korea, 2013.


Jelena Andric, Stefan B Lindström, Srdjan Sasic and Håkan Nilsson
  Description and validation of a flexible fiber model, implemented in a general purpose CFD code
  8th Int. Conf. Multiphase Flow ICMF 2013, 2013.


Jelena Andric, Stefan B Lindström, Srdjan Sasic and Håkan Nilsson
  A particle-level fiber model, implemented in a general-purpose CFD code
  Svenska mekanikdagar, 2013.


Jelena Andric, Stefan B Lindström, Srdjan Sasic and Håkan Nilsson
  A particle-level fiber model, implemented in OpenFOAM(R)
  8th Int. OpenFOAM(R) Workshop, 2013.


Stefan B Lindström and Joris Sprakel
  Thermally-activated delayed failure in heterogeneous solids: An experimental model system
  Svenska mekanikdagar, 2013.


Stefan B Lindström, Sergiy Lavrykov, K. M. Singh and Bandaru Ramarao
  Forming of paper sheets: A numerical simulation based on hydrodynamics of fibrous suspensions
  PaperCon, New Orleans, LA, April 2012, 2012.


Ganarupan Satha, Stefan B. Lindström and Anders Klarbring
  Growth and remodeling of arterial tissue: One-dimensional constrained mixture theory
  8th European Solid Mechanics Conference<em></em>, 2012.


Andreas Fall, Stefan B Lindström, Joris Sprakel, J. -E Löfroth and Lars Wågberg
  Shear-stiffening cellulose nanofiber gels with tuneable mechanical characteristics
  241St National Meeting And Exposition Of The American Chemical Society (Acs), 2011.


Thibaud Denoyelle, Artem Kulachenko, Sylvain Galland and Stefan B Lindström
  Elastic properties of cellulose nanopaper versus conventional paper
  Progress in Paper Physics Seminar, 2011.


Stefan B Lindström, Erdem Karabulut, Artem Kulachenko and Lars Wågberg
  Discriminating between different mechanosorptive creep hypotheses
  Progress in Paper Physics Seminar, 2011.


Martin Holmvall, Francois Drolet, Tetsu Uesaka and Stefan B Lindström
  Microfluidics in printing nip-liquid transfer on random fiber network surface
  Progress in Paper Physics Seminar, 2011.


Artem Kulachenko, Stefan B Lindström and Tetsu Uesaka
  Strength of wet fiber networks: Size scaling
  Papermaking Research Symposium, 2009.


Stefan B Lindström, Artem Kulachenko and Tetsu Uesaka
  New insights in paper forming using particle-level process simulation
  Papermaking Research Symposium, 2009.


Artem Kulachenko, T. Uesaka and Stefan B Lindström
  Reinventing mechanics of fiber networks
  Progress in Paper Physics Seminar, 2008.


Stefan B Lindström and Tetsu Uesaka
  Effects of interparticle friction on the rheology of fiber suspensions
  5th Euro. Congress Comput. Meth. Sci. Eng., 2008.


Stefan B Lindström and Tetsu Uesaka
  Simulation of paper structure development in a roll-blade former
  Progress in Paper Physics Seminar, 2008.


Stefan B Lindström and Tetsu Uesaka
  A model for flexible fibers in viscous and inert fluid
  International Paper Physics Conference, 2007.


Stefan B Lindström and T. Uesaka
  Paper structure modeling with particle-level process simulation
  Progress in Paper Physics Seminar, 2006.


Stefan B Lindström and T. Uesaka
  Suspensions of flexible fibers in flows of decaying turbulence
  Euromech, 2006.


Stefan B Lindström and Tetsu Uesaka
  Stochastic modeling of paper structure: Effects of forming section
  5th Biennial Johan Gullichsen Colloquium, 2005.


Ph.D. Theses

Stefan B Lindström
  Modeling and simulation of paper structure development
  2008.


Licentiate Theses

Ganarupan Satha
  Goal Function Approach to Growth and Remodeling of Arteries
  2014.


  Fulltext PDF

Stefan B Lindström
  Simulation of the dynamics of fiber suspension flows
  2007.


* Social media data based on publications from 2011 to present and with a DOI; data delivered by Altmetric.com.