Modifing PET Fabric Surface with Peanut Protein

Gang Xian Zhang; Zhong Li She; Feng Xiu Zhang; Da Yang Wu

doi:10.4028/www.scientific.net/AMR.472-475.66

Paper Titles

Influence of the Deposition Temperature on the Properties of Medium-Frequency Magnetron Sputtering WS₂ Soft Coated Tools
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Effect of Surface Pretreatment on Morphology and Microhardness on Carbon Coating Using PVD
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Experiment on the Anti-Blocking Technology in No-Tillage Wheat Seeding
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Predicition of GRT Fiber-Rubberized Haydite Concrete Compressive Strength Based on Multiple Regreeion Analysis and BP Neural Network
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Modifing PET Fabric Surface with Peanut Protein
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Characteristics of Electroless Nickel-Phosphorus-Potassium Titanate Whisker Composite Coating
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Design, Generation and Bending Stress Analysis of Face-Gear with Curvilinear Shaped Teeth
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Investigation of the Effect of Process Parameters on Surface Roughness in Wire EDM of Titanium Alloy
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Application of Crab Shell Chitosan on Nonwoven Wool
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 472-475Modifing PET Fabric Surface with Peanut Protein

Modifing PET Fabric Surface with Peanut Protein

Abstract:

The poly(ethyleneteraphthalate)(PET) fabric was semi-encased sucrose ester at high pressure and high temperature to endue it enough –OH, and then the PET fabric was modified with peanut protein through crosslinkage. The FT-IR spectra showed the peanut protein was grafted on PET fabric, the X-ray diffraction spectra showed the structure of grafting peanut protein was random coin, and DSC thermograms showed the thermostability of PET fabric grafted peanut protein kept very well. The wearability of PET fabric grafted peanut protein was measured too. The results showed the hydrophilicity and antistatic property of fabric was improved greatly, the cockle elasticity and broken strength kept very well. Though the whiteness of fabric decreased after grafting peanut protein, it could be bleached with normal method. These showed the PET peanut protein composite fabric was high functional.