Experimental Studies on Fabrication and Thermal Characterization of Shape Memory Polymer Composites with Nanofillers
Shape memory polymers (SMP) have piqued the interest of the research and development sector due to their new features and immense potential. The polymer matrix epoxy was changed using varied weight percentages of aliphatic monomer-neopentyl glycol diglycidyl ether (NGDE), and the optimal weight percentage of NGDE was identified. The weight percentages of NGDE-CNT are 0, 0.3, 0.6, 0.9, 1.2, and 1.5. The use of nanofillers such as carbon nanotubes (CNT) has been promoted to improve the heat conductivity of composites. The thermal conductivity of shape memory polymers has been enhanced through the addition of varying quantities of CNT filler. Mechanical characterizations such as tensile testing, Young’s modulus, impact strength, and heat related tests such as form recovery testing, shape fixity, and recovery time were also investigated. From the investigational outcomes, optimal weight percentage of NGDE loading into epoxy is 15%, and maximum tensile strength attains at 1.2 wt. percent of CNT.
In this work, a simple synthesis of (silver molybdate) Ag2MoO4 nanowires was developed by varying the pH. By adjusting the pH,
agglomeration of each Ag2MoO4 nanowires were seen and…
Creation of efficient electrochemical sensor for the ultrasensitive identification of food toxic chemicals (organo arsenic compound). We also investigated the possibility of rapid identification…
We developed an almond like structured SrMoO4 embedded on sulfur doped-graphitic carbon nitride composites (SrMoO4/SGCN) by green methods for electrochemical detection of CAP.