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Impact of embedding cavity design on thermal history between layers in polymer material extrusion additive manufacturing
Swapnil Sinha,
Nicholas A. Meisel
School of Engineering Design and Innovation
Research output
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Contribution to conference
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Paper
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peer-review
1
Scopus citations
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Dive into the research topics of 'Impact of embedding cavity design on thermal history between layers in polymer material extrusion additive manufacturing'. Together they form a unique fingerprint.
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Keyphrases
Thermal History
100%
Polymer Materials
100%
Cavity Design
100%
Extrusion Additive Manufacturing
100%
Weld Strength
66%
In Situ
33%
Thermocouple
33%
Weld Formation
33%
Tensile Test
33%
Prediction Accuracy
33%
Additive Manufacturing Process
33%
Layer Interface
33%
Tool Path
33%
Tool Path Planning
33%
Thermal Measurement
33%
Multifunctional Structures
33%
Material Extrusion
33%
In Situ Embedding
33%
Engineering
Welds
100%
Polymer Material
100%
Additive Manufacturing
100%
Thermal History
100%
Material Extrusion
100%
Cross Section
33%
Tensile Test
33%
Accurate Prediction
33%
Layer Interface
33%
Thermocouple
33%
Additive Manufacturing Process
33%
Final Part
33%
Material Science
Three Dimensional Printing
100%