Cornell Injection Molding Program Progress Report No. 15: Covering the Period from September 1988 Through January 1990College of Engineering, Cornell University, 1990 - 338 頁 |
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第 1 到 3 筆結果,共 40 筆
第 80 頁
... surface charge and on the Debye radius ( which is a reflection of the sphere of influence of the surface charge ) . The TiO2 particles possess a surface charge which was measured in water ( pH = 7 ) and documented in section 5.7 below ...
... surface charge and on the Debye radius ( which is a reflection of the sphere of influence of the surface charge ) . The TiO2 particles possess a surface charge which was measured in water ( pH = 7 ) and documented in section 5.7 below ...
第 92 頁
... Surface Charge It was suspected that the particles being used possess a surface charge and this was being evidenced by the change in the viscosity on the addition of salt to the system since the salt alone was not the cause of the ...
... Surface Charge It was suspected that the particles being used possess a surface charge and this was being evidenced by the change in the viscosity on the addition of salt to the system since the salt alone was not the cause of the ...
第 141 頁
... surface removed are also shown in Fig . 15 to make the part geometry more intelligible . Figure 16 ( a ) shows the predicted melt - front advancement whereas the same filling pattern but with hidden surface / line removed is shown in ...
... surface removed are also shown in Fig . 15 to make the part geometry more intelligible . Figure 16 ( a ) shows the predicted melt - front advancement whereas the same filling pattern but with hidden surface / line removed is shown in ...
常見字詞
air traps apparent viscosity behavior best-fit boundary calculated candidate curves candidate points Carreau model cavity-filling COOL3D cooling rate corresponding Cross model density determined developed elements equation experiments Figure filling stage flow rate flow-front region fluid Fraction of solid function gate geometry glycerin Hieber increase injection molding injection-molding injection-molding process instant linear lines and air material melt front mesh MOLDFLOW Newtonian Newtonian fluid node numerical optimization particles Pb alloy PMMA polygon polypropylene polystyrene post-filling stage power-law predicted melt-front advancement pressure drop pressure traces processing conditions Progress Report relative viscosity results in Fig rheological rheometer segments semi-solid alloy shear rate shear stress shown in Fig shrinkage simulation solid fraction Styron surface suspension SWEEP2D swept area symbols Table thermal conductivity thermoset thickness torque V₁ velocity vertex curve viscoelastic viscosity model volume fraction volumetric volumetric flow rate warpage weld lines yield stress