সিলিকন তেল
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Monomethacryloxypropyl Terminated Polydimethylsiloxane, Asymmetric ((Sod-211)) পলিডিমেথাইলসিলোক্সান
1. Asymmetric Single-ended UV-curable Functional Modifier This product is a high-performance asymmetric single-functional reactive polydimethylsiloxane, featuring unique single-ended methacryloxypropyl active group and inert terminal structure. Different from symmetric double-ended curing silicone, its single-ended polymerization activity realizes directional grafting and unilateral cross-linking. It effectively avoids excessive network densification and toughness attenuation
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MONOTRIMETHOXY TERMINATED POLYDIMETHYLSILOXANE, এসিমেট্রিক ((SOD-M104)
1. Directional Curing Silicone Functional Precursor This product is a high-performance asymmetric single-ended reactive polydimethylsiloxane with unique monofunctional trimethoxy hydrolytic active groups and single-ended inert silicone structure. Different from traditional double-ended reactive silicone polymers, it achieves unilateral controllable hydrolysis and condensation cross-linking reactions. The directional curing mode effectively avoids excessive cross-linking
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MONODIHYDROXY TERMINATED POLYDIMETHYLSILOXANE, এসিমেট্রিক ((SOD-Q403)
1. Asymmetric Controlled Cross-linking Silicone Precursor This product is a special asymmetric hydroxyl-terminated polydimethylsiloxane with unique monodihydroxy differential reactive structure. Different from symmetric bifunctional silicone monomers, its asymmetric hydroxyl activity gradient enables gradient and controllable cross-linking reaction. It effectively avoids excessive cross-linking and brittle failure of traditional silicone systems, and is suitable for preparing
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অ্যামিনোপ্রোপাইল টার্মিনেটেড পলিডাইমিথাইলসিলোক্সান (SOT-A102)
1. Reactive Functional Silicone Polymer Intermediate This product is a typical bifunctional reactive silicone polymer with amino-propyl terminal active groups and flexible polydimethylsiloxane main chain. The terminal primary amino groups possess high chemical activity and can undergo ring-opening, addition and condensation reactions with epoxy, isocyanate and carboxyl groups. It serves as a key flexible modification intermediate for synthesizing silicone-modified epoxy,
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BIS ((METHACRYLOXY) BUTYLPOLYDIMETHYLSILOXANE ((SOT-J305)
1. UV-curable Silicone Modified Monomer This product is a high-performance bifunctional active silicone polymer containing terminal methacryloxy unsaturated double bonds and flexible PDMS backbone. The terminal methacrylate groups possess excellent UV curing activity and free radical polymerization reactivity. It can be copolymerized and cross-linked with acrylic monomers under light initiation conditions, serving as a core functional monomer for synthesizing UV-curable
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মোনোকার্বিনোল টার্মিনেটেড পলিডাইমিথাইলসিলোক্সান এসিমেট্রিক ((SOD-Q203)
1. Asymmetric Single-ended Reactive Modification Precursor This product is a high-performance asymmetric functional polydimethylsiloxane with single carbinol active terminal group and opposite inert silicone terminal. Different from traditional double-ended hydroxyl silicone, it features unilateral controllable reaction activity and no cross-linking saturation limitation. It can perform selective grafting and chain extension reaction with isocyanate, anhydride and carboxyl
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MONOVINYL TERMINATED POLYDIMETHYLSILOXANE, এসিমেট্রিক ((SOD-V102)
1. Asymmetric Single-ended Addition Curing Modifier This product is a high-performance asymmetric functional polydimethylsiloxane with single terminal vinyl active group and opposite inert silicone structure. It features unilateral hydrosilylation reactivity without full cross-linking network restriction. It can undergo precise addition curing reaction with hydrogen-containing silicone monomers, enabling directional grafting modification. It effectively avoids excessive cross
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মোনোহাইড্রাইড টার্মিনেটেড পলিডিমিথাইলসিলোক্সান, অ্যাসাইমেট্রিক (SOD-H101)
1,Polymer Matrix Single-terminal Silicone Graft Modification Utilizing the unique terminal silicon-hydrogen bond (Si-H) of asymmetric PDMS, directional hydrosilylation reaction with unsaturated double bonds and active hydroxyl sites of polymers such as polyether, acrylic resin, epoxy resin and polyurethane is carried out under platinum catalysis to realize controllable single-terminal grafting of PDMS segments. It effectively avoids system curing, thickening and gelation
