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Elastically effective cross-link coating

Figure 7. Elastically effective cross-link density versus bake temperature for an acrylic-urethane coating as a function of polyol to isocyanate ratio. Figure 7. Elastically effective cross-link density versus bake temperature for an acrylic-urethane coating as a function of polyol to isocyanate ratio.
Fig. 12.2 Simulations of the effects of Xcl, max on the stable erosion rate and lag time for a highly cross-linked epoxy-amine coating using the model of [3]. Xcl, max is the degree of surface conversion of elastically effective network chains (cross-Unk density) at which erosion is initiated. The stable erosion rate is established shortly after the lag time has passed. Conditions are T=50 °C, RH=75 %, and =480 W/m (295-400 nm). Other input and model parameters are provided in the figure caption of Fig. 3 in Rul [3]... Fig. 12.2 Simulations of the effects of Xcl, max on the stable erosion rate and lag time for a highly cross-linked epoxy-amine coating using the model of [3]. Xcl, max is the degree of surface conversion of elastically effective network chains (cross-Unk density) at which erosion is initiated. The stable erosion rate is established shortly after the lag time has passed. Conditions are T=50 °C, RH=75 %, and =480 W/m (295-400 nm). Other input and model parameters are provided in the figure caption of Fig. 3 in Rul [3]...
See other pages where Elastically effective cross-link coating is mentioned: [Pg.521]    [Pg.214]    [Pg.174]    [Pg.1122]    [Pg.162]    [Pg.192]    [Pg.194]   
See also in sourсe #XX -- [ Pg.261 ]



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Elastically effective cross-link

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