Polymers, Free Full-Text
4.7 (470) · € 39.00 · In Magazzino
Herein, the effect of carbon fibers (CFs) on the tensile property of a polylactic acid (PLA) specimen prepared by utilizing the fused deposition modeling (FDM) method, is investigated. The tensile property, crystal structure, and morphology of FDM-produced specimens were detected by universal testing machine, X-ray diffraction (XRD), and scanning electron microscopy (SEM), respectively. Meanwhile, the reinforcement mechanism of CFs on the FDM-printed PLA specimens was also studied. The DSC curves indicated that the crystalline structure of the PLA-CF specimen was higher than the PLA specimen. After the introduction of CFs, the XRD results showed the crystal structure of PLA varied from non-crystalline to α crystalline, and the SEM results illustrated the terrible bonding interface between carbon fiber and PLA. Interestingly, after the introduction of carbon fiber, the tensile strength of the PLA specimen reduced from 54.51 to 49.41 MPa. However, compared with the PLA component, the Young’s modulus and the elongation-at-break of the PLA-CF specimen increased from 1.04 GPa and 6.26%, to 1.26 GPa and 7.81%, respectively.
Polymer Free Volume and Its Connection to the Glass Transition
Supramolecular polymer chemistry: From structural control to functional assembly - ScienceDirect
Positronium annihilation data and actual free-volume distribution in polymers (Manchester eScholar - The University of Manchester)
Polymer Free Volume and Its Connection to the Glass Transition
Polymers, Free Full-Text, Animation Paper
Polymers, Free Full-Text, códigos de double xp no block city
Polymers, Free Full-Text, analyses
Industry News published by Condensia Química
Polymers, Free Full-Text, nmm2 values
Polymers, Free Full-Text, nmm2 values
Polymers, Free Full-Text
Free Radical Polymerization - Introduction, Mechanism, Thermodynamics and Applications of Free Radical Polymerization.
Synthetically tunable polymers, free volume element size distributions, and dielectric breakdown field strengths - ScienceDirect
Polymers, Free Full-Text