Innovative Manufacturing Processes of Silicate Materials

Modern industries seek materials that combine high performance, cost-efficiency, and sustainability. Addressing these needs requires a holistic view that includes raw materials, compositions, microstructures, processing methods, and material architectures. Silicate-based materials—such as ceramics,...

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collection Directory of Open Access Books
description Modern industries seek materials that combine high performance, cost-efficiency, and sustainability. Addressing these needs requires a holistic view that includes raw materials, compositions, microstructures, processing methods, and material architectures. Silicate-based materials—such as ceramics, glasses, glass-ceramics, and geopolymers—exhibit diverse mechanical, chemical, electrical, and biological properties. Their versatility makes them vital in sectors such as the automotive, aerospace, electronics, energy, and healthcare fields. Product performance is strongly influenced by the raw material selection and processing techniques. Thus, innovation in manufacturing—targeting specific microstructures and architectures—is key to expanding the applications of silicate materials in advanced technologies. This Special Issue highlights the adaptability and growing potential of silicate-based materials. From structural ceramics and refractories for harsh conditions to breakthroughs in additive manufacturing, environmental solutions, and photonic systems, these contributions reveal the close link between composition, processing, and function. Embracing both established and emerging approaches—such as geopolymers and nanoengineering—they offer fresh insights to drive future research and industrial progress in ceramic science.
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spelling doab-20.500.12854ir-1657832025-08-12T10:16:31Z Innovative Manufacturing Processes of Silicate Materials Gonon, Maurice Abdelouhab, Sandra Lecomte-Nana, Gisèle refractory castable impregnation liquid sodium silicate glass alkali resistance physical and mechanical properties thermal shock resistance gold nanoparticles glass surface plasmon resonance LSPR plasmonics phase separation microstructure octacalcium phosphate (OCP) bioceramics silica dicarboxylate co-substitute mullite stereolithography humidity sensor direct ink writing porosity bending strength compressive strength molding drying shrinkage robocasting image analysis geopolymer-based composites 3D printing rheological characterization rheological modifier additive cordierite geopolymer Young’s modulus coefficient of thermal expansion clay materials porous ceramics processing properties water filtration Cu-based catalysts supported sepiolite acid treatment furfural hydrogenation furfuryl alcohol methylfuran n/a thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general Modern industries seek materials that combine high performance, cost-efficiency, and sustainability. Addressing these needs requires a holistic view that includes raw materials, compositions, microstructures, processing methods, and material architectures. Silicate-based materials—such as ceramics, glasses, glass-ceramics, and geopolymers—exhibit diverse mechanical, chemical, electrical, and biological properties. Their versatility makes them vital in sectors such as the automotive, aerospace, electronics, energy, and healthcare fields. Product performance is strongly influenced by the raw material selection and processing techniques. Thus, innovation in manufacturing—targeting specific microstructures and architectures—is key to expanding the applications of silicate materials in advanced technologies. This Special Issue highlights the adaptability and growing potential of silicate-based materials. From structural ceramics and refractories for harsh conditions to breakthroughs in additive manufacturing, environmental solutions, and photonic systems, these contributions reveal the close link between composition, processing, and function. Embracing both established and emerging approaches—such as geopolymers and nanoengineering—they offer fresh insights to drive future research and industrial progress in ceramic science. 2025-08-12T10:16:28Z 2025-08-12T10:16:28Z 2025 book ONIX_20250812T110751_9783725845484_538 9783725845484 9783725845477 https://directory.doabooks.org/handle/20.500.12854/165783 eng image/jpeg Attribution 4.0 International https://mdpi.com/books https://mdpi.com/books/pdfview/book/11216 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-4547-7 10.3390/books978-3-7258-4547-7 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725845484 9783725845477 192 open access
spellingShingle refractory castable
impregnation
liquid sodium silicate glass
alkali resistance
physical and mechanical properties
thermal shock resistance
gold nanoparticles
glass
surface plasmon resonance
LSPR
plasmonics
phase separation
microstructure
octacalcium phosphate (OCP)
bioceramics
silica
dicarboxylate
co-substitute
mullite
stereolithography
humidity sensor
direct ink writing
porosity
bending strength
compressive strength
molding
drying
shrinkage
robocasting
image analysis
geopolymer-based composites
3D printing
rheological characterization
rheological modifier additive
cordierite
geopolymer
Young’s modulus
coefficient of thermal expansion
clay materials
porous ceramics
processing
properties
water filtration
Cu-based catalysts
supported sepiolite
acid treatment
furfural hydrogenation
furfuryl alcohol
methylfuran
n/a
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
Innovative Manufacturing Processes of Silicate Materials
title Innovative Manufacturing Processes of Silicate Materials
title_full Innovative Manufacturing Processes of Silicate Materials
title_fullStr Innovative Manufacturing Processes of Silicate Materials
title_full_unstemmed Innovative Manufacturing Processes of Silicate Materials
title_short Innovative Manufacturing Processes of Silicate Materials
title_sort innovative manufacturing processes of silicate materials
topic refractory castable
impregnation
liquid sodium silicate glass
alkali resistance
physical and mechanical properties
thermal shock resistance
gold nanoparticles
glass
surface plasmon resonance
LSPR
plasmonics
phase separation
microstructure
octacalcium phosphate (OCP)
bioceramics
silica
dicarboxylate
co-substitute
mullite
stereolithography
humidity sensor
direct ink writing
porosity
bending strength
compressive strength
molding
drying
shrinkage
robocasting
image analysis
geopolymer-based composites
3D printing
rheological characterization
rheological modifier additive
cordierite
geopolymer
Young’s modulus
coefficient of thermal expansion
clay materials
porous ceramics
processing
properties
water filtration
Cu-based catalysts
supported sepiolite
acid treatment
furfural hydrogenation
furfuryl alcohol
methylfuran
n/a
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
topic_facet refractory castable
impregnation
liquid sodium silicate glass
alkali resistance
physical and mechanical properties
thermal shock resistance
gold nanoparticles
glass
surface plasmon resonance
LSPR
plasmonics
phase separation
microstructure
octacalcium phosphate (OCP)
bioceramics
silica
dicarboxylate
co-substitute
mullite
stereolithography
humidity sensor
direct ink writing
porosity
bending strength
compressive strength
molding
drying
shrinkage
robocasting
image analysis
geopolymer-based composites
3D printing
rheological characterization
rheological modifier additive
cordierite
geopolymer
Young’s modulus
coefficient of thermal expansion
clay materials
porous ceramics
processing
properties
water filtration
Cu-based catalysts
supported sepiolite
acid treatment
furfural hydrogenation
furfuryl alcohol
methylfuran
n/a
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
url ONIX_20250812T110751_9783725845484_538