Rheological and mechanical properties and interfacial stress development of composite cements modified with thio-urethane oligomers

Engineering & Materials Science

• Oligomers 100%
• Cements 57%
• Mechanical properties 44%
• Composite materials 40%
• Film thickness 18%
• Toughness 16%
• Resins 15%
• Gelation 11%
• Dynamic mechanical analysis 10%
• ASTM standards 10%
• Benzene 10%
• Glass transition 9%
• Polymerization 9%
• Superconducting transition temperature 9%
• Gels 9%
• Bending strength 8%
• Fillers 8%
• Fracture toughness 7%
• Elastic moduli 7%
• Viscosity 7%

Medicine & Life Sciences

• Urethane 81%
• Sulfhydryl Compounds 32%
• Isocyanates 30%
• Resin Cements 26%
• dicyclohexylmethane 23%
• pentaerythritol tetra(3-mercaptopropionate) 23%
• hexamethylene glycol 19%
• triethylene glycol dimethacrylate 15%
• Transition Temperature 13%
• Vitrification 13%
• Methacrylates 13%
• Flexural Strength 12%
• Benzene 12%
• Viscosity 10%
• Polymerization 10%
• Dentists 10%
• Gels 8%

Chemical Compounds

• Rheology 62%
• Oligomer 55%
• Composite Material 34%
• Resin Cement 30%
• Thiol 22%
• Crosslink Density 20%
• Isocyanate 17%
• Shear Modulus 11%
• Pentaerythritol 10%
• Fracture Toughness 9%
• Bend Strength 9%
• NIR Spectroscopy 8%
• Filler 7%
• Methacrylate 7%
• Glass Transition Temperature 7%
• Benzene 6%
• Polymerization Reaction 5%
• Reduction 3%