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Journal Articles
Publisher: ASME
Article Type: Research-Article
J. Micro Nano Sci. Eng. December 2024, 12(4): 041001.
Paper No: JMNM-24-1019
Published Online: October 11, 2024
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 1 Classification of various micromachining processes More about this image found in Classification of various micromachining processes
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 2 Methodology flowchart More about this image found in Methodology flowchart
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 3 Pictorial representation of SECEDM setup More about this image found in Pictorial representation of SECEDM setup
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 4 Pictorial representation of ( a )–( d ) SECEDM mechanism and ( e ) waveform analysis [ 18 ] More about this image found in Pictorial representation of ( a )–( d ) SECEDM mechanism and ( e ) waveform...
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 5 Comparative analysis of ( a ) SECEDM and ( b ) ECDM voltage waveform More about this image found in Comparative analysis of ( a ) SECEDM and ( b ) ECDM voltage waveform
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 6 Comparison of ( a ) MRR obtained by different machining processes and ( b ) current density graph [ 18 ] More about this image found in Comparison of ( a ) MRR obtained by different machining processes and ( b )...
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 7 Comparative analysis of ( a ) average diameter and ( b )average roundness error of machined holes fabricated by ultrasonic-assisted ECDM [ 31 ], ECM, and SECEDM processes More about this image found in Comparative analysis of ( a ) average diameter and ( b )average roundness e...
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 8 SEM images of microhole fabricated by ( a ) ECM and ( b ) SECEDM More about this image found in SEM images of microhole fabricated by ( a ) ECM and ( b ) SECEDM
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 9 Comparative analysis of ( a ) average diameter and ( b ) average roundness error of machined holes fabricated by ultrasonic-assisted ECDM [ 31 ], ECM, and SECEDM processes More about this image found in Comparative analysis of ( a ) average diameter and ( b ) average roundness ...
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 10 SEM images of cross-sectional surfaces of fabricated microholes by ( a ) EDM, ( b ) ECM, and ( c ) SECEDM More about this image found in SEM images of cross-sectional surfaces of fabricated microholes by ( a ) ED...
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 11 3D views and SEM images of the machined hole surfaces fabricated by ( a ) and ( b ) EDM, ( c ) and ( d ) ECM, and ( e ) and ( f ) SECEDM More about this image found in 3D views and SEM images of the machined hole surfaces fabricated by ( a ) a...
Image
in Comparative Analysis of Simultaneous Electrochemical and Electrodischarge Machining Process
> Journal of Micro and Nano Science and Engineering
Published Online: October 11, 2024
Fig. 12 Elemental analysis of surface ( a ) before machining and after machining by ( b ) EDM, ( c ) ECM, and ( d ) SECEDM processes More about this image found in Elemental analysis of surface ( a ) before machining and after machining by...
Journal Articles
Publisher: ASME
Article Type: Research-Article
J. Micro Nano Sci. Eng. September 2024, 12(3): 031001.
Paper No: JMNM-24-1015
Published Online: October 9, 2024
Journal Articles
Publisher: ASME
Article Type: Research-Article
J. Micro Nano Sci. Eng. June 2024, 12(2): 021001.
Paper No: JMNM-24-1011
Published Online: October 9, 2024
Journal Articles
Kwangtae Son, Hsin-Mei Kao, Patrick McNeff, Seongun Yang, Nahal Ghanadi, Somayeh Pasebani, Chi-hung Chang, Brian K. Paul
Publisher: ASME
Article Type: Technical Briefs
J. Micro Nano Sci. Eng. June 2024, 12(2): 024501.
Paper No: JMNM-24-1009
Published Online: October 9, 2024
Journal Articles
Publisher: ASME
Article Type: Review Articles
J. Micro Nano Sci. Eng. September 2024, 12(3): 030801.
Paper No: JMNM-24-1012
Published Online: October 9, 2024
Image
in A FeCrAl-Al 2 O 3 Composite Produced Via Laser Powder Bed Fusion of a Mixed Powder for Porous Catalyst Scaffolds
> Journal of Micro and Nano Science and Engineering
Published Online: October 9, 2024
Fig. 1 Cost analysis comparison of catalyst scaffolds of jet-fuel production reactor: 464 commercial method versus LPBF More about this image found in Cost analysis comparison of catalyst scaffolds of jet-fuel production react...
Image
in A FeCrAl-Al 2 O 3 Composite Produced Via Laser Powder Bed Fusion of a Mixed Powder for Porous Catalyst Scaffolds
> Journal of Micro and Nano Science and Engineering
Published Online: October 9, 2024
Fig. 2 The schematic diagram of porous FeCrAl scaffold via LPBF process in this study More about this image found in The schematic diagram of porous FeCrAl scaffold via LPBF process in this st...
Image
in A FeCrAl-Al 2 O 3 Composite Produced Via Laser Powder Bed Fusion of a Mixed Powder for Porous Catalyst Scaffolds
> Journal of Micro and Nano Science and Engineering
Published Online: October 9, 2024
Fig. 3 BSE image with elemental maps of cross-sectional view of LPBF Sample at 60 W 100 mm/s, showing white-gray regions as FeCrAl and dark regions as Al 2 O 3 More about this image found in BSE image with elemental maps of cross-sectional view of LPBF Sample at 60 ...
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