Ren et al., 2017 - Google Patents
Wall slip velocity measurement of molten polypropylene in capillary flow based on length‐corrected Mooney techniqueRen et al., 2017
- Document ID
- 11588069199813406477
- Author
- Ren Z
- Huang X
- Liu H
- Publication year
- Publication venue
- Journal of Applied Polymer Science
External Links
Snippet
In this study, to measure wall slip velocity of molten polypropylene (PP) by using different length‐to‐diameter (L/D) ratios of capillary dies with fixed diameter, a length‐corrected Mooney technique was proposed. Moreover, the effects of pressure, temperature, and L/D …
- 229920001155 polypropylene 0 title abstract description 136
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Phan et al. | Rheological and heat transfer effects in fused filament fabrication | |
| Ansari et al. | Capillary flow of low‐density polyethylene | |
| Wang et al. | Stick− Slip Transition in Capillary Flow of Polyethylene. 2. Molecular Weight Dependence and Low-Temperature Anomaly | |
| Ren et al. | Wall slip velocity measurement of molten polypropylene in capillary flow based on length‐corrected Mooney technique | |
| Konaganti et al. | Non-isothermal extrudate swell | |
| Ren et al. | Numerical and experimental studies for gas assisted extrusion forming of molten polypropylene | |
| Yacob et al. | Stagnation point flow towards a stretching/shrinking sheet in a micropolar fluid with a convective surface boundary condition | |
| Ufodike et al. | Investigation of thermal evolution and fluid flow in the hot-end of a material extrusion 3D Printer using melting model | |
| Carreras et al. | Pressure effects on viscosity and flow stability of polyethylene melts during extrusion | |
| Minaeian et al. | Forced convective heat transfer of nonlinear viscoelastic flows over a circular cylinder at low Reynolds inertia regime | |
| Labsi et al. | Heat and flow properties of a temperature dependent viscoplastic fluid including viscous dissipation | |
| Yang et al. | Numerical simulation and experimental study of pressure and residence time distribution of triple‐screw extruder | |
| Lin et al. | On‐line melt temperature measurements for polymer injection molding through an instrumented annular duct | |
| Megahed | Variable heat flux effect on magnetohydrodynamic flow and heat transfer over an unsteady stretching sheet in the presence of thermal radiation | |
| Ali et al. | Mathematical model for isothermal wire-coating from a bath of Giesekus viscoelastic fluid | |
| Lin et al. | Geometrical dependence of viscosity of polymethylmethacrylate melt in capillary flow | |
| Perko et al. | Model for the prediction of bulk temperature changes and pressure losses in rubber compounds flowing through conical dies: An engineering approach | |
| Sundstrom et al. | The self-similarity of wall-bounded temporally accelerating turbulent flows | |
| Touloupidis et al. | Connecting linear polymers molecular structure to viscoelastic properties and melt flow index | |
| Ren et al. | A novel unified wall slip model for P oiseuille flow of polymer melt in the circular tube | |
| Zhao et al. | Study on viscosity of polymer melt flowing through microchannels considering the wall‐slip effect | |
| Mansour et al. | Thermal stratification and suction/injection effects on flow and heat transfer of micropolar fluid due to stretching cylinder | |
| Liang | Effects of extrusion rate, temperature, and die diameter on melt flow properties during capillary flow of low-density-polyethylene | |
| Hopmann et al. | Limitations of Reptation Theory for Modeling the Stress‐Dependent Rheological Behavior of Polyethylene Terephthalate Above the Glass‐Transition Temperature | |
| Sefid et al. | Developing and fully developed non-Newtonian fluid flow and heat transfer through concentric annuli |