Cornell Injection Molding Program Progress Report No. 17: Covering the Period from December 1991 Through February 1993College of Engineering, Cornell University, 1993 - 418 頁 |
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第 1 到 3 筆結果,共 22 筆
第 43 頁
Covering the Period from December 1991 Through February 1993. 3.3 Application to i - PP Concerning the isothermal crystallization of isotactic PP , Table 1 lists available experimental sources , [ 4 ] - [ 25 ] , with corresponding ...
Covering the Period from December 1991 Through February 1993. 3.3 Application to i - PP Concerning the isothermal crystallization of isotactic PP , Table 1 lists available experimental sources , [ 4 ] - [ 25 ] , with corresponding ...
第 64 頁
... i - PP at atmospheric pressure can be well described by ( 28 , 29 ) , as indicated in Figure 6. Further , the bulk of available constant - cooling- rate data for i - PP at atmospheric pressure can be described by o ( T ) , as presented ...
... i - PP at atmospheric pressure can be well described by ( 28 , 29 ) , as indicated in Figure 6. Further , the bulk of available constant - cooling- rate data for i - PP at atmospheric pressure can be described by o ( T ) , as presented ...
第 67 頁
... i - PP reported in section 3.3 above were obtained by the latter procedure . That is , in the case of i - PP it is not practicable to obtain a quenched amorphous specimen which can then be heated up to the desired temperature level for ...
... i - PP reported in section 3.3 above were obtained by the latter procedure . That is , in the case of i - PP it is not practicable to obtain a quenched amorphous specimen which can then be heated up to the desired temperature level for ...
常見字詞
ABAQUS aligned Alloys analysis behavior boundary conditions calculated CIMP cm³/gm Composites constant cooling corresponding crystallization curve cylinder Darcy's Law data points density developed diffusivity direction disk effect equation et.al experimental results fiber mat fiber orientation Figure finite-element fluid formulation function gapwise gradient heat hydrodynamic i-PP injection molding injection-molded interactions interface isothermal kerosine layer linear liquid material matrix measurements melt mesh metal method microstructure mid-plane Newtonian Newtonian fluid nodes Non-Newtonian Fluid nondimensional numerical obtained orientation tensor PANLITE parameters particles permeability planar plotted Polym post-filling power-law predictions pressure region resin Reynolds number Rheocasting rheological rotation semi-dilute semi-solid shear flow shear rate shear stress SHELL10 shown in Fig shrinkage simple shear simulation slurry solid fraction solidification stress structure surface surface tension suspension temperature thermal thickness thin cavity Thixotropic tracer transverse values vector velocity disturbance viscoelastic viscosity wire deformation