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For this reprint, we intend to cover theoretical as well as experimental works performed on small scale to predict the material properties and characteristics of any advanced and metamaterials. New studies on mechanics of small-scale structures such as MEMS/NEMS, carbon and non-carbon nanotubes (e.g., CNTs, Carbon nitride, and Boron nitride nanotubes), micro/nano-sensors, nanocomposites, macrocomposites reinforced by micro-/nano-fillers (e.g., graphene platelets), etc., are included in this reprint.
Technology: general issues --- History of engineering & technology --- carbon nanotube-reinforced composite --- forced vibration --- dynamic analysis --- beam --- harmonic load --- assembly --- metal-organic frameworks --- hydrogen evolution reaction --- Cu2−xS --- interfacial interaction --- conducting carbon black network --- mechanical property --- electromagnetic interference shielding --- CNT --- elastic foundations --- nonlinear free vibration --- nonlinear frequency --- shallow shell structures --- hyperelastic micro/nanobeam --- extended modified couple stress theory --- strain-stiffening effect --- nonlinear frequency response --- functionally graded material --- thermoelasticity --- sliding contact --- wear --- heating from friction --- thermoelastic instability --- wood --- nano-, micro-, meso-, and macro-structure --- multiscale mechanical properties --- size effects --- Hall-Petch law --- dendrochronology --- surface bonding --- nanoporous graphene --- atomic force microscopy --- hyperelastic microcantilever --- softening resonance --- non-contact cantilever --- shooting and arc-length continuation method --- developed Galerkin method --- graphene nanoplatelets --- recycle carbon fibers --- air nanobubbles --- cement-based composites and nanocomposites --- mechanical properties --- electrical properties
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Manufacturers of soft polymer products, as well as suppliers and processors of polymers, raw materials, and compounds or blends are compelled to use predictive and advanced laboratory testing in their search for high-performance soft polymer materials for future applications. The collection of 12 publications contained in this edition therefore presents different methods used to solve problems in the characterization of various phenomena in soft polymer materials, asks relevant questions and offers appropriate solutions.
Research & information: general --- Physics --- ultraviolet radiation --- thermoplastic elastomer --- high vinyl S-B-S --- photoinitiator --- mechanical properties --- rubber --- curing --- bismaleimide --- tensile strength --- Diels–Alder reaction --- effective electrical resistance --- elastomer sensors --- natural rubber --- local strain --- conductive filler --- digital image correlation --- strain sweep --- rheometer --- rubber process analyzer --- swelling --- absorption --- infrared spectroscopy --- mass spectrometry --- gas chromatography --- mechanical behavior --- synthetic aviation fuels --- 3D printed elastomers --- elastomer --- fast characterization --- energy stored and released --- heat source reconstruction --- intrinsic dissipation --- infrared thermography --- engine mount --- elastomer characterisation --- experimental testing --- resonance frequency --- dynamic stiffness --- parameter identification --- electrodynamic shaker --- test bench --- cogging torque --- synchronous machine --- carbon black --- tensile --- Mullins effect --- Payne effect --- dynamic strain --- hysteresis --- material testing --- rheology --- Poisson’s ratio --- viscoelasticity --- plasticizer --- polarity --- carbon black network --- simultaneous mechanical and dielectric analysis --- mechanical stability --- glass transition --- kinetics --- resin --- BDS --- FDSC --- nanocomposites --- carbon nanotubes --- atomic force microscopy --- dynamical mechanical analysis
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