Energy conventional coatings

Energy Comparisons in Manufacture of Radiation Curing vs Conventional Coatings... 

Examples of some typical prepolymer materials and their raw material derivatives are given in Table I. Polymer manufacture schemes for radiation curable and conventional coatings are in Figures I and II. Qualitative comparison of a relative energy input intensity for preparation of radiation curable and conventional coatings are given in Tables II, III, and IV,... 

Because of water s high latent heat of vaporization, as much as four times more energy is required to force-dry or stove water-borne coatings compared to conventional coatings. 

Li, J. and Carr, P., Characterization of polybutadiene-coated zirconia and comparison to conventional bonded phases by use of linear solvation energy relationships, Anal. Chem. Acta, 334(3), 239, 1996. 

Saha et al. [109] have proposed an improved ion deposition methodology based on a dual ion-beam assisted deposition (dual IBAD) method. Dual IBAD combines physical vapor deposition (PVD) with ion-beam bombardment. The unique feature of dual IBAD is that the ion bombardment can impart substantial energy to the coating and coating/substrate interface, which could be employed to control film properties such as uniformity, density, and morphology. Using the dual lABD method, an ultralow, pure Ft-based catalyst layer (0.04-0.12 mg Ft/cm ) can be prepared on the surface of a GDL substrate, with film thicknesses in the range of 250-750 A. The main drawback is that the fuel cell performance of such a CL is much lower than that of conventional ink-based catalyst layers. Further improvement... 

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