Следене
Syrjälä Seppo
Syrjälä Seppo
University Lecturer in Thermal Sciences, Tampere University.
Потвърден имейл адрес: tuni.fi
Заглавие
Позовавания
Позовавания
Година
A comparison of rheology and FTIR in the study of polypropylene and polystyrene photodegradation
V Mylläri, TP Ruoko, S Syrjälä
Journal of Applied Polymer Science 132 (28), 2015
982015
Effect of rotational speed of twin screw extruder on the microstructure and rheological and mechanical properties of nanoclay‐reinforced polypropylene nanocomposites
P Peltola, E Välipakka, J Vuorinen, S Syrjälä, K Hanhi
Polymer Engineering & Science 46 (8), 995-1000, 2006
892006
Measurement technique and data analysis of extensional viscosity for polymer melts by Sentmanat extensional rheometer (SER)
J Aho, VH Rolón-Garrido, S Syrjälä, MH Wagner
Rheologica acta 49, 359-370, 2010
652010
Shear viscosity measurements of polymer melts using injection molding machine with adjustable slit die
J Aho, S Syrjälä
Polymer testing 30 (6), 595-601, 2011
572011
Measurement of the pressure dependence of viscosity of polymer melts using a back pressure‐regulated capillary rheometer
J Aho, S Syrjälä
Journal of Applied Polymer Science 117 (2), 1076-1084, 2010
542010
Melt spinning of poly (l/d) lactide 96/4: Effects of molecular weight and melt processing on hydrolytic degradation
K Paakinaho, V Ellä, S Syrjälä, M Kellomäki
Polymer Degradation and Stability 94 (3), 438-442, 2009
532009
On the measurement and modeling of viscosity of polymers at low temperatures
J Aho, S Syrjälä
Polymer Testing 27 (1), 35-40, 2008
532008
Laminar flow of viscoelastic fluids in rectangular ducts with heat transfer: A finite element analysis
S Syrjälä
International communications in heat and mass transfer 25 (2), 191-204, 1998
431998
Finite-element analysis of fully developed laminar flow of power-law non-Newtonian fluid in a rectangular duct
S Syrjälä
International communications in heat and mass transfer 22 (4), 549-557, 1995
411995
Determining the pressure dependency of the viscosity using PVT data: A practical alternative for thermoplastics
M Fernández, ME Muñoz, A Santamaría, S Syrjälä, J Aho
Polymer Testing 28 (1), 109-113, 2009
382009
On the analysis of fluid flow and heat transfer in the melt conveying section of a single-screw extruder
S Syrjala
Numerical Heat Transfer: Part A: Applications 35 (1), 25-47, 1999
381999
Effect of the plate surface characteristics and gap height on yield stresses of a magnetorheological fluid
I Jonkkari, E Kostamo, J Kostamo, S Syrjala, M Pietola
Smart materials and structures 21 (7), 075030, 2012
352012
Extensional viscosity in uniaxial extension and contraction flow—Comparison of experimental methods and application of the molecular stress function model
J Aho, VH Rolón-Garrido, S Syrjälä, MH Wagner
Journal of non-newtonian fluid mechanics 165 (5-6), 212-218, 2010
342010
Sedimentation stability and rheological properties of ionic liquid–based bidisperse magnetorheological fluids
I Jönkkäri, M Isakov, S Syrjälä
Journal of Intelligent Material Systems and Structures 26 (16), 2256-2265, 2015
322015
Further finite element analyses of fully developed laminar flow of power-law non-Newtonian fluid in rectangular ducts: Heat transfer predictions
S Syrjälä
International communications in heat and mass transfer 23 (6), 799-807, 1996
301996
Numerical simulation of nonisothermal flow of polymer melt in a single-screw extruder: a validation study
S Syrjala
Numerical Heat Transfer: Part A: Applications 37 (8), 897-915, 2000
292000
Characterizing a UV chamber with mercury lamps for assessment of comparability to natural UV conditions
A Heikkilä, P Kärhä, A Tanskanen, M Kaunismaa, T Koskela, J Kaurola, ...
Polymer testing 28 (1), 57-65, 2009
282009
A new approach for the simulation of melting in extruders
S Syrjälä
International communications in heat and mass transfer 27 (5), 623-634, 2000
252000
Modelling of sample surface temperature in an outdoor weathering test
P Bijl, A Heikkilä, S Syrjälä, A Aarva, A Poikonen
Polymer testing 30 (5), 485-492, 2011
242011
Higher order penalty-Galerkin finite element approach to laminar natural convection in a square cavity
S Syrjälä
Numerical Heat Transfer, Part A Applications 29 (2), 197-210, 1996
231996
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