Electromagnetic shielding effectiveness improvement with high temperature in far‐field behavior multiwall carbon nanotube/iron (III) particles addition in composites
Abstract:The hybrid polymer composite (HPMC) are increasingly used in the most shielding applications in the far field region, but the main problem is these HPMC should be having a good shielding efficiency and works at high temperature. The purpose of this research study was to prepare a high stable microwave shielding hybrid polymer composite for incremental temperature implementations with surface modified MWCNTs and Fe2O3 filled contents. In this paper, the kenaf fiber, Iron (III) oxide and MWCNTs particles were su… Show more
“…The microwave absorbing material absorbs the reflected signal once again [22] . Shielding effectiveness is a combination of absorption and reflection of electromagnetic wave through the composite material [ 23 , 24 ]. Fig.…”
“…The microwave absorbing material absorbs the reflected signal once again [22] . Shielding effectiveness is a combination of absorption and reflection of electromagnetic wave through the composite material [ 23 , 24 ]. Fig.…”
“…This uniform distribution in polymer composite is the reason due their of functional group response (NH 2 ) with matrix. [23,24] Figure 3(E) shows the EDAX report of silane surface modified EGNiAg 2 sample. The presence of nickel, nitrogen, and oxygen assure the existence of NH 2 functional group on surface modified reinforcement.…”
High performance epoxy based EMI shielding hybrid composites were prepared and characterized for their mechanical, magnetic, and Electromagnetic Interference (EMI) shielding behavior. The aim of this research was to enhance the electromagnetic interference shielding effect of a nanocomposite at high frequency with good mechanical strength. The shielding effectiveness of the epoxy composite was improved via the addition of E-glass/silver nanoparticle and nickel nanosheets. The reinforcements were silane surface modified to enhance the adhesion and dispersion of reinforcements with matrix. The composites were prepared via hand layup process using glass fiber, silver nanoparticle, and Ni nanosheets followed by room temperature curing. The characterization of hybrid composites was done in accordance with ASTM standards. The results revealed that the Ag and Ni along with E-glass fiber improved conductivity, permittivity, and permeability of epoxy composite. Similarly, the mechanical behavior of nanocomposite was found to be increased for tensile, flexural, and Izod impact toughness. Moreover, a maximum wave attenuation of -48 dB was observed for 3-mm thick composite shielding material in "J" band frequency. These mechanically sound high EMI shielding lightweight polymer composites could be used as potential material for aerospace, defense, tele-communication, and satellite data transfer applications. Besides the reduction of EMI effect between electronic gadgets could improves the utility and life span of electromagnetic devices and gadgets in several engineering applications.
K E Y W O R D SEMI shielding, mechanical properties, Ni nanosheet, polymer matrix composite, silver NPs
| INTRODUCTIONElectromagnetic (EM) shielding effectiveness (SE) is one of the helpful solution to minimize EMI problems and to warrant the safety of the electronic systems. [1,2] Metals are utilized in EM shielding implementations because they are conductive and liable to reflect forthcoming EM waves. [3,4] While, considerable issues appear concerning
“…Among the techniques to change the fiber orientation, magnetic-field manipulation has proven to be an effective strategy. [4] In particular to achieve enhancements in the mechanical properties, [5][6][7][8][9] electrical and thermal conductivity, [10][11][12] and shielding properties of the composite [13,14] or to introduce a steering motion, [15] magnetic fields have shown to be beneficial. The effectiveness of the improvements depends on the degree of orientation that is achieved in a specific time interval.…”
Herein, the experimental results of discontinuous ferromagnetic-fiber manipulation using magnetic-field interaction are presented. High-aspect-ratio steel fibers are realigned in viscous polydimethylsiloxanes (PDMSs) with electromagnets. The influence of the matrix viscosity, magnetic-field strength, and fiberaspect ratio on the dynamics of the realignment process is investigated. To predict the fiber behavior under static magnetic fields, two commonly used theoretical models (hereinafter referred to as the torque model and the exponential model) are compared to a nonlinear regression model proposed by the authors. The latter model focuses on the alignment rate of a fiber as a function of the physical process parameters. To indicate the best fitting model for the experimental results, the statistical root-mean-square error (RMSE) values of the fitted models are assessed. A total of 54 comparisons are made between the exponential model and the authors' nonlinear regression model. In 50 cases, the nonlinear regression model provides a better fit.
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