TY - BOOK ID - 113601456 TI - Reviews and Advances in Materials Processing PY - 2022 SN - 3036556931 303655694X PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Materials science KW - electrical discharge machining KW - vibroacoustic emission KW - adaptive control KW - monitoring KW - discharge gap KW - erosion products KW - silver nanoparticles KW - mulberry leaves extract KW - CO2-assisted polymer compression KW - numbering-up KW - high productivity KW - CO2 KW - polymer KW - porous material KW - process improvement KW - 1D magnetic photonic crystals KW - multilayer film modeling KW - modeling of Faraday rotation spectra KW - MPC optimization KW - exhaustive computation KW - materials characterization KW - nanoceramics KW - coatings KW - auxiliary electrode KW - electrical conductivity KW - oxides KW - nitrides KW - carbon particles KW - oil medium KW - additive technologies KW - additive manufacturing KW - FFF KW - 3D printing KW - nylon KW - cryogenic machining KW - review KW - liquid nitrogen KW - liquid carbon dioxide KW - thermomechanical processing KW - bobbin friction stir welding KW - atomic force microscopy KW - AA6082-T6 aluminium alloy KW - dynamic recrystallization KW - precipitation KW - macroscopic self-standing architectures KW - Ni-doped MnO2 KW - Co-doped MnO2 KW - propane oxidation KW - mechanical properties KW - 3D-printing KW - compensation KW - accuracy KW - precision KW - adsorption KW - hydrotalcite KW - thiophene/dibenzothiophene KW - n-pentane KW - desulfurization KW - structural ceramic KW - oxide ceramic KW - EDM KW - ZrO2 KW - Al2O3 KW - electrode KW - thin films KW - white layer KW - electro physics KW - chemical reactions KW - sublimation KW - friction stir welding KW - WC KW - AA1100 aluminium plate KW - weld contamination KW - tunnel void KW - kissing bond KW - erosion KW - tool wear KW - ZnNix KW - explosive deposition KW - n/a UR - https://www.unicat.be/uniCat?func=search&query=sysid:113601456 AB - Materials processing is the first, and a key, step in proper utilization of the composition of a given material and to realize the microstructural features that are intended to attain desired property levels for a given application. Both primary and secondary processing methods are equally important in tailoring the end properties of materials. In view of the crucial importance of the processing of materials, this Special Issue is intending to cover all innovative aspects of primary processing (solid phase, liquid phase, two phase, 3D printing, rapid solidification, etc.) and secondary processing (such as variations in extrusion, forging, rolling, equichannel angular extrusion, etc.) of materials (polymers/metal/ceramic-based, including their composites). Desirable attributes expected for submission will be processing–microstructure–property interrelations. ER -