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High Energy Milling of Micro Magnetic Powder for Fingerprint Development
K. Nag, X. Liu, A. Scott,
Y.K. Chen
Centre for Climate Change Research (C3R)
School of Physics, Engineering & Computer Science
Department of Engineering and Technology
Centre for Engineering Research
Centre for Future Societies Research
Energy and Sustainable Design Research Group
Research output
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Contribution to journal
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Article
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peer-review
190
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Dive into the research topics of 'High Energy Milling of Micro Magnetic Powder for Fingerprint Development'. Together they form a unique fingerprint.
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Keyphrases
Micromagnetics
100%
Fingerprint Development
100%
High-energy Milling
100%
Magnetic Powder
100%
Flakes
60%
Latent Fingerprint Development
40%
Vibratory Mill
40%
Atomized Iron Powder
40%
Good Quality
40%
Particle Dimensions
40%
Steel Ball
40%
Previous Experience
20%
Forensic Investigation
20%
Milling Time
20%
Process Controlling
20%
Dry Milling
20%
Metallic Powder
20%
High Energy
20%
Iron Powder
20%
High Aspect Ratio
20%
Latent Fingerprint
20%
Dark Background
20%
Milling Process
20%
Control Agents
20%
Stainless Steel
20%
Scanning Electron Microscope
20%
Milling Media
20%
Manufacturing Methods
20%
Engineering
Mechanical Alloying
100%
Iron Powder
100%
Steel Ball
66%
Metallic Powder
33%
Plastic Pot
33%
Dry Milling
33%
Manufacturing Technique
33%
High Aspect Ratio
33%
Starting Material
33%
Stainless Steel
33%
Material Science
Iron Powder
100%
Stainless Steel
33%
Surface (Surface Science)
33%