https://iberdomidechemical.com/to-us-insectometers-it-is-apparent-that-termite-decline-in/ Hybrid ethylene-propylene-diene-monomer (EPDM) nanocomposite foams were produced via compression molding with enhanced electromagnetic trend absorption effectiveness. The crossbreed filler, comprising 20 phr ferroelectric barium titanate (BT) and different running portions of multi-wall carbon nanotubes (MWCNTs), synergistically increased the electromagnetic (EM) revolution absorption attributes associated with EPDM foam. Consequently, although the EPDM foam filled up with 20 phr BT had been clear to the EM wave within the regularity variety of 8.2-12.4 GHz (X-band), the hybrid EPDM nanocomposite foam laden with 20 phr BT and 10 phr MWCNTs provided a complete protection effectiveness (SE) of ~22.3 dB in comparison to ~16.0 dB regarding the MWCNTs (10 phr). This synergistic impact is suggested to be due to the segregation of MWCNT sites inside the cellular framework of EPDM, leading to improved electric conductivity, also large dielectric permittivity of this foam imparted by the BT particles. Furthermore, the total SE of this BT/MWCNTs filled foam samples stayed virtually unchanged whenever subjected to repeated bending because of the flexible data recovery behavior associated with the crosslinked EPDM foamed nanocomposites.The tailored manipulation of ceramic surfaces gained current interest to optimize the overall performance and lifetime of composite materials used as implants. In this work, a hierarchical area texturing of hydroxyapatite (HAp) ceramics was created to improve the indegent adhesive bonding strength in hydroxyapatite and polycaprolactone (HAp/PCL) composites. Four various kinds of regular area morphologies (grooves, cylindric pits, linear waves and Gaussian mountains) had been realized by a ceramic micro-transfer molding method into the submillimeter range. A subsequent surface roughening and functionalization on a micron to nanometer scale had been acquired