| 1 - 10 |
Rheology as a powerful tool for industrial material development
Min KJ, Lee M, Son J, Lee JH |
| 11 - 19 |
Rheological properties of dilute polymer solutions determined by particle tracking microrheology and bulk rheometry
Kang H, Ahn KH, Lee SJ |
| 21 - 29 |
The role of interfacial elasticity on the rheological behavior of polymer blends
Silva JM, Machado AV, Moldenaers P, Maia JM |
| 31 - 41 |
Capillary breakup extensional rheometry of a wormlike micellar solution
Kim NJ, Pipe CJ, Ahn KH, Lee SJ, McKinley GH |
| 43 - 50 |
Molecule-based electrorheological material assembled using β-cyclodextrin as substrate
Shang YL, Jia YL, Ma Y, Li JR, Zhang SH, Li MX |
| 51 - 58 |
Rheological properties of culture broth of Acremonium chrysogenum M35 in baffled flasks with glass beads
Lee HH, Song YS, Lee JY, Jung HW, Kim SW |
| 59 - 64 |
Are there arterio-venous differences of blood micro-rheological variables in laboratory rats?
Hever T, Kiss F, Sajtos E, Matyas L, Nemeth N |
| 65 - 73 |
Start-up times in viscoelastic channel and pipe flows
Miranda AIP, Oliveira PJ |
| 75 - 80 |
Ribbing instability in rigid and deformable forward roll coating flows
Lee JH, Han SK, Lee JS, Jung HW, Hyun JC |
| 81 - 86 |
The power of slit-flow ektacytometry measurements for testing normal and heat treated red blood cells using various viscosity media in laboratory animals
Kiss F, Sajtos E, Hever T, Nemeth N |
