Elastomers from Renewable Metathesized Palm Oil Polyols

Keyphrases

• 1-butene 16%
• Bioproducts 16%
• Canola Oil 16%
• Chemical Structure 16%
• Commercially Available 16%
• Crosslink Density 16%
• Differential Scanning Calorimetry 33%
• Dynamic Mechanical Analysis 33%
• Elastomer 100%
• Fourier Transform Infrared Spectroscopy (FT-IR) 16%
• Glass Transition Temperature 16%
• High Thermal Stability 16%
• Hydroxyl 33%
• Hydroxyl Value 16%
• Low Tensile Strength 16%
• Mechanical Texture 16%
• Metathesized Palm Oil 100%
• Molecular Structure 16%
• Palm Kernel Oil 100%
• Percentage Elongation 16%
• Polyol 100%
• Polyurethane 83%
• Polyurethane Elastomer 16%
• Rigid Plastic 33%
• Rubber 16%
• Soybean Oil 16%
• Superior Performance 16%
• Tensile Strength 33%
• Texture Analysis 16%
• Thermal Degradation 16%
• Thermal Properties 16%
• Thermal Tensile 16%
• Thermal Transition 16%
• Thermogravimetric Analysis 16%
• Transitional Behavior 16%

Material Science

• Density 12%
• Differential Scanning Calorimetry 25%
• Dynamic Mechanical Analysis 25%
• Elastomer 100%
• Glass Transition Temperature 12%
• Molecular Structure 12%
• Polyol 100%
• Polyurethane 75%
• Structure (Composition) 12%
• Thermal Degradation 12%
• Thermal Property 12%
• Thermal Stability 12%
• Thermogravimetric Analysis 12%
• Ultimate Tensile Strength 37%

Chemical Engineering

• Butene 12%
• Differential Scanning Calorimetry 25%
• Elastomer 100%
• Fourier Transform 12%
• Palm Oil 100%
• Polyol 100%
• Polyurethane 75%