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Volumn 288, Issue 4, 2010, Pages 469-477
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The preparation of inorganic/organic hybrid nanomaterials containing silsesquioxane and its reinforcement for an epoxy resin network
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Author keywords
Epoxy resin; Hybrid; Reinforcement; Silsesquioxane
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Indexed keywords
CURED EPOXY RESINS;
CURING PROCESS;
DECOMPOSITION TEMPERATURE;
EPOXY RESIN NETWORKS;
FLYNN-WALL-OZAWA;
FRACTURE ELONGATION;
GLASS TRANSITION TEMPERATURE;
INORGANIC/ORGANIC HYBRID;
KINETIC STUDY;
KISSINGER;
MECHANICAL AND THERMAL PROPERTIES;
N-BUTYL GLYCIDYL ETHER;
SCANNING ELECTRON MICROSCOPE;
SILSESQUIOXANES;
THERMAL PROPERTIES;
VICAT SOFTENING TEMPERATURE;
ACTIVATION ENERGY;
CURING;
EPOXY RESINS;
ETHERS;
FOURIER TRANSFORM INFRARED SPECTROSCOPY;
GLASS TRANSITION;
IMPACT STRENGTH;
MASS SPECTROMETRY;
MECHANICAL PROPERTIES;
NANOSTRUCTURED MATERIALS;
NUCLEAR MAGNETIC RESONANCE;
POLYMER BLENDS;
REINFORCEMENT;
RESINS;
RESONANCE;
SCANNING ELECTRON MICROSCOPY;
TENSILE STRENGTH;
THERMODYNAMIC PROPERTIES;
HYBRID MATERIALS;
AMINE;
EPOXY RESIN;
ETHER;
INORGANIC COMPOUND;
NANOMATERIAL;
ORGANIC COMPOUND;
POLYMER;
SILICON;
ANTIOXIDANT ACTIVITY;
ARTICLE;
CHEMICAL ANALYSIS;
CHEMICAL REACTION KINETICS;
CHEMICAL STRUCTURE;
CONTROLLED STUDY;
DECOMPOSITION;
GLASS TRANSITION TEMPERATURE;
INFRARED SPECTROSCOPY;
MASS SPECTROMETRY;
MECHANICAL STIMULATION;
MOLECULAR INTERACTION;
MOLECULAR MECHANICS;
PRIORITY JOURNAL;
PROTON NUCLEAR MAGNETIC RESONANCE;
SCANNING ELECTRON MICROSCOPY;
TENSILE STRENGTH;
THERMAL STIMULATION;
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EID: 77952541383
PISSN: 0303402X
EISSN: None
Source Type: Journal
DOI: 10.1007/s00396-009-2160-7 Document Type: Article |
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Times cited : (20)
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References (24)
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