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Volumn 14, Issue 7, 2000, Pages 925-937
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The critical humidity effect in the adhesion of epoxy to glass: Role of hydrogen bonding
a
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Author keywords
Adhesion; Clustering; Epoxy; Humidity; Hydroxyl; Order disorder transition; Water sorption
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Indexed keywords
CAPILLARY CONDENSATION;
CELL FORMATION;
CLUSTERING;
CRITICAL HUMIDITY;
CRITICAL VALUE;
DIGLYCIDYL ETHER OF BISPHENOL;
DRY STATE;
EPOXY;
FIRST-ORDER;
HYDROGEN BOND NETWORKS;
HYDROGEN-BONDED STRUCTURES;
HYDROXYL;
HYDROXYL GROUPS;
LOW WATER;
MACROCYCLICS;
MODEL COMPOUND;
MOLECULAR SIMULATIONS;
MULTIPLE HYDROGEN BONDING;
POLAR GROUPS;
POLAR SITES;
RELATIVE HUMIDITIES;
RING STRUCTURES;
WATER CONCENTRATIONS;
WATER SORPTION;
WATER SORPTION ISOTHERMS;
WATER UPTAKE;
CRITICAL HUMIDITY EFFECT;
MOLECULAR SIMULATION;
ADHESION;
ATMOSPHERIC HUMIDITY;
CELLULAR MANUFACTURING;
COMPLEXATION;
CURING;
ETHERS;
GLASS;
MOLECULAR STRUCTURE;
PHENOLS;
SORPTION;
COMPUTER SIMULATION;
EPOXY RESINS;
HYDROGEN BONDS;
ISOTHERMS;
MATHEMATICAL MODELS;
ORDER DISORDER TRANSITIONS;
SYNTHESIS (CHEMICAL);
WATER;
HYDROGEN BONDS;
ADHESION;
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EID: 0033734380
PISSN: 01694243
EISSN: 15685616
Source Type: Journal
DOI: 10.1163/156856100742988 Document Type: Article |
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Times cited : (34)
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References (17)
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