Advanced ceramic components: Materials, fabrication, and applications

Advanced ceramic components: Materials, fabrication, and applications

[Display omitted] The global demand for ceramic materials with wide-ranging applications in the environment, precision tools, biomedical, and electronics, and environmental fields is on the increase. Several ceramic materials and methods of fabrication have been developed with task-specific properti...

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Bibliographic Details
Published in:Journal of industrial and engineering chemistry (Seoul, Korea) Vol. 85; pp. 34 - 65
Main Authors: Ayode Otitoju, Tunmise, Ugochukwu Okoye, Patrick, Chen, Guanting, Li, Yang, Onyeka Okoye, Martin, Li, Sanxi
Format: Journal Article
Language:English
Published: Elsevier B.V 25-05-2020
한국공업화학회
Subjects:
Applications
Ceramic components
Ceramics
Fabrication
Properties
화학공학
SCS
PU
GDC
HR
STL
PVP
HFM
BBP
ZrSiO4
Ceramic components
BLZT
ID
SLS
β-Sialon
PWF
Si3N4
IP
3-D
Ti3SiC2
aq
CVD
ZrO2
RH
NIPs
SiBCO
AMPG
TiO2
HPSN
RT
ZTA
β-eucryptite
ZTE
BN
NiO-GDC
CTAB
HTCC
TiC
SFF
THF
Y2O3
AlN
SICO
KOH
SiAlON
Ceramics
ULTCC
PFOA
CR
HAPES
NMP
TIF
PAA
DRA
abs
AlON
PIM
HAP
Si
PFOS
DI
ATZ
STL/BNT-BLZT
BNT
TZP
SiC
CaO
Fabrication
DBP
VFD
AMC
SiO2
SHS
PSD
UDP
TiB2
ZrB2
CIP
NA
PSZ
Mg
UHTCs
3Y-TZP
NP
NaPAA
APTES
LTCC
WC
Properties
HDPE
MgO
OD
CeO2
Applications
TiCN
ZrC
Y-TZP
PEG
CTE
FAS
CuO
NRA
PVB
TEM
HF
PES
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Description
Summary:[Display omitted] The global demand for ceramic materials with wide-ranging applications in the environment, precision tools, biomedical, and electronics, and environmental fields is on the increase. Several ceramic materials and methods of fabrication have been developed with task-specific properties. The material, the fabrication methods, and processing conditions impel characteristics including corrosion-resistant, outstanding optical and electrical properties, hardness and anti-aging. In this review, various materials for the preparation of ceramics and ceramic composites components were investigated to demonstrate the contribution of the materials and different fabrication methods to the properties of the ceramics components. The material properties, sintering temperature, casting technique, and pressure influences the ceramics grain size and porosity, which have an explicit effect on mechanical strength, corrosion-resistant, and optical properties of the ceramic components. The finishing of the ceramic components into a machinable shape requires careful attention to avoid defects. However, most conventional finishing methods are cost-intensive, hence, the need to commercialize 3-D printing for large scale and long-run applications. It is hoped that this review would propagate wider research on low cost and energy effective pathways to produce ceramics with dynamic properties, which can be applied in several fields with outstanding performance.
ISSN:1226-086X
1876-794X
DOI:10.1016/j.jiec.2020.02.002