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Contrasting energy efficiency in various ceramic sintering processes
Damoon Sohrabi Baba Heidary
,
Michael Lanagan
,
Clive A. Randall
Engineering Science and Mechanics
Materials Research Institute (MRI)
Materials Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
91
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Scopus citations
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Keyphrases
Additive Manufacturing
33%
Barium Titanate
33%
Ceramic Processing
33%
Ceramic Sintering
100%
Cold Sintering Process
66%
Conventional Techniques
33%
Electric Field (E-field)
33%
Energy Consumption
66%
Energy Consumption Reduction
33%
Energy Cost
33%
Energy Efficiency
100%
Energy Efficiency Improvement
33%
Energy Efficient Manufacturing
33%
Energy Sustainable
33%
Environmental Concern
33%
Excess Energy
33%
First-order Approximation
33%
Heat Dissipation
33%
Heating Rate
33%
Laser Sintering
33%
Manufacturing Approaches
33%
Potential Techniques
33%
Sintering Aid
33%
Sintering Process
100%
Sustainable Manufacturing
33%
Engineering
Additive Manufacturing
25%
Approximation Order
25%
Conventional Technique
25%
Electric Field
25%
Energy Conservation
100%
Energy Efficiency
100%
Environmental Concern
25%
Excess Energy
25%
Heat Losses
25%
Heating Rate
25%
Illustrates
25%
Manufacturing Process
25%
Reduce Energy Consumption
25%
Sintering
100%
Sintering Aid
25%
Sintering Process
100%
Sustainable Manufacturing
25%
Chemical Engineering
Chilling
100%
Heating Rate
100%
Material Science
Ceramics Processing
14%
Selective Laser Sintering
14%
Sintering
100%
Three Dimensional Printing
14%