TY - BOOK ID - 145604300 TI - New Environmentally-Friendly and Sustainable Materials AU - Rodrigues, Alisson Mendes AU - de Araujo Neves, Gelmires AU - Menezes, Romualdo Rodrigues PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - palygorskite KW - adsorption KW - anionic dye KW - cationic dye KW - water treatment KW - perlite tailings KW - aggregate KW - alkali–silicate reaction KW - ceramic residue KW - alkaline activation KW - experimental design KW - durability tests KW - kaolin KW - solid residues KW - pozzolanic activity KW - cement mortar KW - carbonation KW - poly (lactic acid) KW - high-density biopolyethylene KW - bioblends KW - compatibilization KW - scheelite tailings KW - sustainable ceramic mass KW - red ceramic KW - firing parameters KW - palygorskite KW - adsorption KW - anionic dye KW - cationic dye KW - water treatment KW - perlite tailings KW - aggregate KW - alkali–silicate reaction KW - ceramic residue KW - alkaline activation KW - experimental design KW - durability tests KW - kaolin KW - solid residues KW - pozzolanic activity KW - cement mortar KW - carbonation KW - poly (lactic acid) KW - high-density biopolyethylene KW - bioblends KW - compatibilization KW - scheelite tailings KW - sustainable ceramic mass KW - red ceramic KW - firing parameters UR - https://www.unicat.be/uniCat?func=search&query=sysid:145604300 AB - One of the great challenges of contemporary society is establishing a sustainable way of life in harmony with the environment without compromising economic growth and technological development. On the other hand, the increase in the world population has driven per capita consumption, and consequently, the generation of waste. Because of this, new materials are being developed from different types of waste. This Special Issue aims to highlight and share recent scientific findings in the area of “New Environmentally Friendly and Sustainable Materials” manufactured from different material types (polymers, ceramics, metallics, and composites) and urban, industrial, mining and agricultural wastes. Moreover, scientific topics such as improving performance and durability, materials characterization, hybrid materials, foams and porous materials, trends and advances, and mechanical, electrical, magnetic, optical, and thermal properties will also be accepted. ER -