Jeng Ywan Jeng | Materials selection | Editorial Board Member

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Prof. Jeng Ywan Jeng | Materials selection | Editorial Board Member

Distinguished Professor | National Taiwan University of Science and Technology | Taiwan

Prof. Jeng-Ywan Jeng is a distinguished professor at the National Taiwan University of Science and Technology, widely recognized for his pioneering contributions to advanced manufacturing, additive manufacturing, laser processing and lattice-structure engineering. He holds strong academic foundations in mechanical and manufacturing engineering and has over two decades of research and teaching experience in hybrid manufacturing, high-speed 3D printing, multi-material fabrication, and cellular structure optimization. His research interests include additive manufacturing process innovation, closed-cell and supportless lattice structures, laser welding modeling, photovoltaic material development and hybrid mold fabrication. Prof. Jeng has received several awards for research excellence and industry-oriented innovation. He has authored highly cited works such as A state-of-the-art review on cellular structures (The International Journal of Advanced Manufacturing Technology, 2019, cited by 612 articles), Mold fabrication using hybrid cladding and milling (Journal of Materials Processing Technology, 2001, cited by 204 articles), Design of closed-cell supportless lattices (Additive Manufacturing, 2020, cited by 161 articles), Prediction of laser butt-joint welding parameters (Journal of Materials Processing Technology, 2000, cited by 119 articles), and Multi-material additive manufacturing with foam-filled lattices (Additive Manufacturing, 2022, cited by 118 articles). His work continues to influence modern manufacturing research and industrial applications.

Profiles: Google Scholar

Featured Publications

Nazir, A., Abate, K. M., Kumar, A., & Jeng, J. Y. (2019). A state-of-the-art review on types, design, optimization, and additive manufacturing of cellular structures. The International Journal of Advanced Manufacturing Technology, 104(9), 3489–3509.

Jeng, J. Y., & Lin, M. C. (2001). Mold fabrication and modification using hybrid processes of selective laser cladding and milling. Journal of Materials Processing Technology, 110(1), 98–103.*

Kumar, A., Collini, L., Daurel, A., & Jeng, J. Y. (2020). Design and additive manufacturing of closed cells from supportless lattice structure. Additive Manufacturing, 33, 101168.

Jeng, J. Y., Mau, T. F., & Leu, S. M. (2000). Prediction of laser butt joint welding parameters using back propagation and learning vector quantization networks. Journal of Materials Processing Technology, 99(1–3), 207–218.

Prajapati, M. J., Kumar, A., Lin, S. C., & Jeng, J. Y. (2022). Multi-material additive manufacturing with lightweight closed-cell foam-filled lattice structures for enhanced mechanical and functional properties. Additive Manufacturing, 54, 102766.

Igor Artyukov | Carbon composites| Best Researcher Award

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Dr . Igor Artyukov | Carbon composites| Best Researcher Award

 Dr . Igor Artyukov ,P.N. Lebedev Physical Institute RAS,Russia

Dr. Igor Artyukov is a distinguished scientist at the P.N. Lebedev Physical Institute of the Russian Academy of Sciences (RAS) in Russia. Specializing in the field of physics, Dr. Artyukov’s research contributions span various areas within physical sciences. The P.N. Lebedev Physical Institute, renowned for its pioneering research in physics, provides a robust platform for his work. Dr. Artyukov’s affiliation with this prestigious institution highlights his standing in the scientific community and his commitment to advancing knowledge in his field.

 

Professional Profiles:

Scopus

Education 🎓

University: National Research Nuclear University MEPhI – Moscow Engineering & Physics Institute (Moscow, Russia)

  • Year of Graduation: 1988 (Honors Diploma)
  • Degree: M.Sc.
  • Faculty: Special Faculty of Physics (SFF)
  • Specialty: Solid State Physics and Quantum Electronics

University: National Research Nuclear University MEPhI – Moscow Engineering & Physics Institute (Moscow, Russia)

  • Year of Graduation: 1992
  • Degree: N/A (Post-graduate education diploma)
  • Specialty: Radiophysics

Management Training and Courses

  • Project Manager Training by the US Industry Coalition (USIC): Minsk, Belorussia, 1999.
  • Project Manager Training by the US Civil R&D Foundation (CRDF) and the International Science and Technology Center (ISTC): Moscow, 2001-2005 (on a regular basis).

Scientific Degree

Organization: P.N. Lebedev Physical Institute of the Russian Academy of Sciences (Moscow, Russia)

  • Degree: Ph.D.
  • Year: 1993
  • Specialty: Optics
  • Ph.D. Thesis: “X-ray Optics for Microscopy and Lithography”

Awards:

  • Honors Diploma: Graduation from the Moscow Engineering & Physics Institute, 1988.
  • Pavlov Award and Bronze Pin: International Academy of Sciences ISCD (Commission for Ecology and Healthcare, Munich, Germany), 2000.
  • Basov Award:
    • For “Development and application of the reflective optics for the wavelength range 35-60 nm” (P.N. Lebedev Physical Institute of the Russian Academy of Sciences), 2007.
    • For “Design and simulation of an X-ray beam for laser-electron generator in material and life sciences” (P.N. Lebedev Physical Institute of the Russian Academy of Sciences), 2017.
    • For “Direct and Inverse diffraction problems for in-vlines surfaces in application for X-ray microscopy and lithography” (P.N. Lebedev Physical Institute of the Russian Academy of Sciences), 2021.

Fields of Expertise:

Theoretical Studies:

  • Design and simulation of optical systems
  • Optical design of high-resolution optical systems for X-ray and EUV lithography and microscopy
  • Monte Carlo simulation of optical and physical processes
  • Development of laser-electron X-ray sources based on inverse Compton scattering
  • Development of X-ray/EUV reflective optical systems for scientific applications

Experimental Studies:

  • Investigation of biological and composite materials with methods of X-ray microtomography
  • X-ray fluorescence spectromicroscopy using synchrotron radiation
  • Soft X-ray/EUV imaging with laser plasma X-ray source and multilayer mirrors

Supervising:

  • K.M. Krymsky: M.Sc., Ph.D. student
  • S.A. Romanova: M.Sc., Ph.D. student
  • M.A. Zotova: M.Sc. student
  • K.V. Gorodnischev: M.Sc. student
  • N.N. Irtuganov: M.Sc, Ph.D. student
  • I.D. Mikheev: B.Sc. student
  • D.A. Paneke: B.Sc., M.Sc., Ph.D. student
  • A.A. Danilov: B.Sc., M.Sc., Ph.D. student

Publications 📚

    1. A. V. Vinogradov, I. A. Artyukov, S. S. Borisova, N. N. Zorev, I. V. Kozhevnikov, I. F. Mikhailov, S. I. Sagitov, and A. I. Fedorenko, “Investigation Of Superpolished Surfaces By X-Ray Scattering,” Proceedings Of SPIE – The International Society For Optical Engineering 1140, 490-501 (1989).
    2. I. Artyukov, A. Vinogradov, and I. Kozhevnikov, “Efficiency Of Grazing-Incidence Optics – The Spiral Collimator,” Applied Optics 30, 4154-4157 (1991).
    3. I. Artyukov, A. Vinogradov, And I. Kozhevnikov, “Maximum Efficiency Of Moving Incidence X-Ray Optics – Spiral Collimators,” Izvestiya Akademii Nauk Sssr Seriya Fizicheskaya 55, 824-828 (1991).
    4. I. Artyukov, L. Balakireva, F. Bijkerk, A. Vinogradov, N. Zorev, I. Kozhevnikov, V. Kondratenko, O. Ogurtsov, A. Ponomarenko, and A. Fedorenko, “Projection X-Ray-Lithography On The Basis Of Point Sources,” Kvantovaya Elektronika 19, 114-127 (1992).
    5. I. Artyukov, A. Vinogradov, And S. Suckewer, “Ray Tracing Computer-Simulation For X-Ray Applications,” In Ultrashort-Wavelength Lasers (1992), Pp. 161-165.
    6. I. A. Artyukov, A. I. Fedorenko, V. V. Kondratenko, S. A. Yulin, And A. V. Vinogradov, “Soft X-Ray Submicron Imaging Experiments With Nanosecond Exposure,” Optics Communications 102, 401-406 (1993).
    7. B. Alaudinov, I. Artyukov, V. Asadchikov, A. Karabekov, And I. Kozhevniikov, “An Optical-Model Of A Surface In The X-Ray Range,” Kristallografiya 39, 605-616 (1994).
    8. I. Artioukov, I. Kozhevnikov, And F. Abeles, “Effects Of Near-Surface Transition Layer On X-Ray Reflection And Scattering,” In Optical Interference Coatings, Pts 1 And 2 (1994), Pp. 692-703.
    9. I. Artyukov, A. Vinogradov, A. Fedorenko, V. Kondratenko, S. Yulin, And S. Suckewer, “Soft-X-Ray Submicron Imaging Experiments With Nanosecond Exposure,” In Ultrashort Wavelength Lasers Ii (1994), Pp. 190-197.
    10. I. A. Artyukov, A. Y. Karabekov, I. V. Kozhevnikov, B. M. Alaudinov, And V. E. Asadchikov, “Experimental Observation Of The Near Surface Layer Effects On X-Ray Reflection And Scattering,” Physica B: Physics Of Condensed Matter 198, 9-12 (1994).
    11. I. Artioukov, A. Vinogradov, V. Asadchikov, Y. Kasyanov, R. Serov, A. Fedorenko, V. Kondratenko, and S. Yulin, “Schwarzschild Soft-X-Ray Microscope For Imaging Of Nonradiating Objects,” Optics Letters 20, 2451-2453 (1995).
    12. I. A. Artioukov And I. V. Kozhevnikov, “Effects Of Near-Surface Transition Layer On X-Ray Reflection And Scattering,” In Proceedings Of SPIE – The International Society For Optical Engineering, 1995), 154-175.
    13. I. A. Artyukov, V. E. Asadchikov, A. V. Vinogradov, Y. S. Kas?Yanov, V. V. Kondratenko, R. V. Serov, A. I. Fedorenko, And S. A. Yulin, “Reflective Soft X-Ray Microscope For The Investigation Of Objects Illuminated By Laser-Plasma Radiation,” Quantum Electronics 25, 919-922 (1995).
    14. I. A. Artioukov, V. E. Asadchikov, And I. V. Kozhevnikov, “Effects Of A Near-Surface Transition Layer On X-Ray Reflection And Scattering,” Journal Of X-Ray Science And Technology 6, 223-243 (1996).
    15. I. A. Artyukov, A. V. Vinogradov, V. V. Kondratenko, A. I. Fedorenko, And S. A. Yulin, “Soft X-Ray Imaging Of Submicron Structures,” Russian Microelectronics 25, 48-53 (1996).