A kind of UV/heat dual-curing adhesive for solar photovoltaic backplane and preparation method thereof
A solar photovoltaic and dual-curing technology, applied in polyurea/polyurethane adhesives, adhesive types, adhesives, etc., can solve problems such as irregular shapes of cured objects, shadows that cannot be cured, and insufficient curing depth to avoid volatilization and heat energy consumption, strong resistance to environmental erosion, and excellent comprehensive performance
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Embodiment 1
[0024] A solar photovoltaic backplane is combined by a combination of the following weight part ratios: 50 parts of the branch modified polyester acrylate, 5 parts of polycarbonate binary Alcohol, 5 parts of super branched tackifying resin, 35 parts of active diluent, 2 parts of isocyanate compound, 2 parts of photoinitiator, 0.001 parts of gel catalyst and 1 part of the auxiliary agent, where the branched type The modified polyester acrylate was prepared from the following weight equipped raw materials: 28 parts of an aliphatic polymer, 26 aromatic dibasic acid, 23 parts of an aliphatic diol, 10 lipid? Dimethanol, 6 parts of branching monomer, 7 parts of acrylic monomer, 0.02 parts of catalyst and 0.2 parts of the polymerization agent.
[0025] Among them, the gel catalyst uses dibutyl tin folkonurate. The isocyanate compound adopts German Bayer N3390.
[0026] Method for preparing solar photovoltaic backplane with UV / thermo-cured adhesive, including the steps of:
[0027] S1, ...
Embodiment 2
[0032] A solar photovoltaic back plate with UV / thermal dual cured adhesive, specifically combined by the following weight part ratio of raw material: 58 parts of branch-type modified polyester acrylate, 4 parts of polycarbonate binary Alcohol, 4 parts of superbranched tackifying resin, 27 parts of active diluent, 4 parts of isocyanate compound, 1.9 parts of photoinitiator, 0.001 parts of gel catalyst and 1 parts, where the branching The modified polyester acrylate was prepared from the following weight component ratios: 25 parts of an aliphatic polymer acid, 30 parts of an aromatic dibasic acid, 20 parts of an aliphatic diol, 12 lipid? Dimetions, 6 parts of branched monomers, 7 parts of methacrylic monomer, 0.02 parts of catalyst and 0.2 parts of the polymerization agent. Among them, the gel catalyst uses octanoate. The isocyanate compound adopts Kissaki N3300.
[0033] Method for preparing solar photovoltaic backplane with UV / thermo-cured adhesive, including the steps of:
[...
Embodiment 3
[0039] A solar photovoltaic backplane with UV / thermal double curing adhesive, which is specifically combined by the following weight component ratios: 66 parts of the branch modified polyester acrylate, 2 parts of polycarbonate binary Alcohol, 2 parts of super branched tackifying resin, 23 parts of active diluent, 4 parts of isocyanate compound, 2 parts of photoinitiator, 0.001 parts of gel catalyst and 1 part, where the branching type The modified polyester acrylate was prepared from the following weight equipped raw materials: 20 parts of an aliphatic polycycle, 32 pieces of aromatic dibasic acid, 25 parts of aliphatic diol, 9 parts of the alicyclic group Diffegant, 6 parts of branched monomers, 7 parts of acrylic monomers, 0.02 parts of catalysts and 1 parts of the polymerization agent.
[0040] Among them, the gel catalyst uses a mixture of dibutyltin and dialkyl tin two maleate. The isocyanate compound adopts Kissaki N3300.
[0041] Method for preparing solar photovoltaic b...
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