Uthayakumar G S | Wireless Communication | Best Researcher Award

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Dr. Uthayakumar G S | Wireless Communication | Best Researcher Award

Dr. St.Joseph’s Institute of Technology, India

With over 32 years of diverse experience, I am an Electronics and Communication Engineer who also holds an MBA in Marketing, an M.E. in Medical Electronics, and a Ph.D. from Anna University. My professional journey includes 20 years in teaching and 12 years in design and development. I’ve authored four books and published over 30 international journal papers. My patents include a sensor circuit for lung vital signs and a wearable finger mouse. I’ve completed multiple NPTEL courses, received elite certifications, and applied for several SERB-funded projects, focusing on innovative biosensors and medical devices.

Professional profile

Google scholar

📜 Educational Qualifications

S.S.L.C: 76% (First) – GHSS, Podaturpet, BSE, TN (1984)H.S.C.: 78% (First) – GHSS, Podaturpet, BSE, TN (1986)B.E. (ECE): 68% (First) – APEC, Melmaruvathur, Madras University (1990)M.B.A.: B-Grade (First) – New College, IGNOU (2001)M.E. (Medical Electronics): B-Grade (First) – CEG, Guindy, Anna University (2010)Ph.D.: Anna University (2018)M.S.W: B-Grade (First) – Gurunanak Arts and Science College, IGNOU (2021)H.D.I.N.C.C: 61% (First) – NIIT, Parrys (1998)

🎓 NPTEL Courses Completed

Introduction to Industry 4.0 and Industrial Internet of Things (Elite Certification)Introduction to Atmospheric and Space Sciences (Completed)Roadmap for Patent Creation (Completed)CMOS Digital VLSI Design (Elite Certification)Cloud Computing (Elite Certification)Introduction to Internet of Things (Elite Certification)Big Data Computing (Elite Certification)Data Science for Engineers (Completed)Data Structures and Algorithms Using Java Programming (Elite Certification)Softskill Development (Completed)Leadership and Team Effectiveness (Completed)Training and Development (Elite Certification)

🧪 Ph.D. Thesis Title

Monitoring Human Body Tissues at Molecular Level Using Fiber Optic Transillumination Imaging (FOTI) System

💼 Teaching Experience

St. Joseph’s Institute of Technology, Chennai: Associate Professor (01.06.2019 – Present)St. Joseph’s College of Engineering, Chennai: Associate Professor (01.08.2008 – 31.05.2019)Lord Venkateshwaraa Engineering College, Puliyambakkam: Vice Principal (01.08.2006 – 31.07.2008), HOD-ECE (12.08.2005 – 31.07.2006)Kalsar College of Engineering, Chennai: HOD-ECE (11.08.2004 – 11.08.2005)Total Teaching Experience: 21 Years 01 Month 14 Days

💼 Industry Experience

Infotronics and Compucontrols Pvt. Ltd., Chennai: Project Manager (27.05.1999 – 10.08.2004)S & S Systems, Chennai: Proprietor (02.03.1994 – 26.05.1999)Utility Engineering, Chennai: Service Engineer (03.01.1994 – 01.03.1994)Medal Marketing, Trichur, Kerala: Service Engineer (30.10.1992 – 30.10.1993)Mekaster Electronics Service Centre Pvt. Ltd., Chennai: Executive Engineer (01.04.1992 – 01.07.1992)Total Industrial Experience: 11 Years 10 Months 9 Days

📝 Funded Projects Applied

AI-Based Robots in Farm Harvesting: DBT – Rs. 32,55,200Genetic Circuit for Type-2 Diabetes and Its Diagnostic Method: DBT – Rs. 19,96,000Indian Medicinal Plants with Antidiabetic Potential: DBT – Rs. 32,95,0005-G Micro-strip Patch Antenna for Osteoporosis: SERB – Rs. 45,31,000Fabrication of Micro Supercapacitor for Biodevices: SERB – Rs. 29,00,9005-G Micro-strip Patch Antenna Design for Osteoporosis Diseases Identification: SERB-IRHPA – Rs. 18,60,000Nanoscale Detection of ECG Signal: SERB – Rs. 20,00,000Muscle Fatigue Monitoring System: SERB – Rs. 14,00,000Fabrication of Optical Nano Biosensor for Climate Change Analysis: SERB – Rs. 53,29,000Nanoscale Detection of ECG Signal for Autism Children: SERB – Rs. 1,16,23,000

🔬 Patents Applied and Grants Received

Wearable Finger Mouse for Desktop: Design Patent Granted (15.06.2023)Phase Stirrer Machine for Medical Industry: Design Patent Applied (31.03.2023)Sensor Circuit for Lung Vital Signs: Granted (25.05.2022)Human Body Signal Biosensor: CBR No. 7983 (05.05.2014)Fiber Optic Transilluminator: Waiting for Grant (07.03.2014)Skin Film ECG Electrode: CBR No. 13253 (18.07.2014)Algal-Based Thin Film Sheet for Vitiligo Treatment: CBR No. 15039 (14.08.2014)Cardiac Electric Field and Magnetic Field Strength Estimation in the Esophagus: Filled (14.01.2020)Wireless Sensor Network Using LoRa WAN Technology to Monitor the Construction Site Remotely: Filled (14.01.2020)

Publication📜

Systematic Efficiency Enabled Energy Usage Method for IoT-Based WSN Environment

Authors: GS Uthayakumar, B Jackson, CRB Durai, A Kalaimani, S Sargunavathi

Journal: Measurement: Sensors

Volume: 25

Article Number: 100615

Year: 2023

Impact: 8

2. Biomedical Optical Spectroscopy Techniques for Diagnosis of Human Saliva Sample

Authors: AS G.S.Uthayakumar, J. Chandhuru, S. Inbasekaran

Journal: Asian Journal of Biomedical and Pharmaceutical Sciences

Volume: 3 (24)

Pages: 12-21

Year: 2013

Impact: 7

3. Mobile Phone Usage and Cancer

Authors: R Seetharaman, GS Uthayakumar, N Gurusamy, N Kumaravel

Conference: 2008 10th International Conference on Electromagnetic Interference and Compatibility

Year: 2008

Impact: 7

4. Nanoparticle Analysis for Various Medicinal Drugs and Human Body Saliva at Macromolecular Level

Authors: GS Uthayakumar, Senthilkumar, S Inbasekaran, A Sivasubramanian

Journal: Applied Nanoscience

Volume: 5

Pages: 563-568

Year: 2015

Impact: 5

5. A Novel Technique to Monitor Human Body Vital Signs

Authors: AGIK Uthayakumar, S G, A. Sivasubramanian

Journal: International Journal of Biomedical and Advance Research

Volume: 4 (9)

Pages: 642-651

Year: 2013

Impact: 4

6. Artificial Intelligence on Mobile Multimedia Networks for Call Admission Control Systems

Authors: A Nithya, M Raja, D Latha, M Preetha, M Karthikeyan, GS Uthayakumar

Conference: 2023 4th International Conference on Smart Electronics and Communication

Year: 2023

Impact: 3

7. Design Criteria for Enhanced Energy Constraint MAC Protocol for WSN

Authors: GS Uthayakumar, B Dappuri, M Vanitha, R Suganthi, V Savithiri

Journal: Measurement: Sensors

Volume: 25

Article Number: 100642

Year: 2023

Impact: 3

8. Early Stage Disease Diagnosis Using Human Nail in Image Processing

Authors: R Sharine, J Sharon, GS Uthayakumar

Journal: International Journal Of Advanced Research In Science, Communication And Technology

Volume: 3

Year: 2021

Impact: 3

9. Biomedical Optical Analytical Techniques to Analyse Medicinal Drugs and Optical Properties of Tissues

Authors: GS Uthayakumar, A Sivasubramanian

Journal: International Journal of Biomedical Engineering and Technology

Volume: 12 (1)

Pages: 38-59

Year: 2013

Impact: 3

10. Investigation of W and M Shaped Solitons in an Optical Fiber for Eighth Order Nonlinear Schrödinger (NLS) Equation

Authors: GS Uthayakumar, G Rajalakshmi, AR Seadawy, A Muniyappan

Journal: Optical and Quantum Electronics

Volume: 56 (6)

Article Number: 973

Year: 2024

Impact: 2

11. Enhanced Expectation-Maximization Algorithm for Smart Traffic IoT Systems Using Deep Generative Adversarial Networks to Reduce Waiting Time

Authors: B Yamini, M Jayaprakash, S Logesswari, V Ulagamuthalvi, R Porselvi

Conference: 2023 4th International Conference on Electronics and Sustainable Energy

Year: 2023

Impact: 2

12. Theoretical Study and Analysis of Advanced Wireless Sensor Network Techniques in Internet of Things (IoT)

Authors: B Yamini, G Pradeep, D Kalaiyarasi, M Jayaprakash, G Janani

Journal: Measurement: Sensors

Volume: 33

Article Number: 101098

Year: 2024

Impact: 1

13. Intruder Identification Using Feed Forward Encasement-Based Parameters for Cybersecurity Along with IoT Devices

Authors: R Sudharsanan, M Rekha, N Pritha, G Ganapathy, GAN Rasoni

Journal: Measurement: Sensors

Volume: 32

Article Number: 101035

Year: 2024

Impact: 1

14. Energy Conservation for Environment Monitoring System in an IoT-Based WSN

Authors: SS Sreedhar, R Anitha, P Rachel, S Suganya, CRB Durai

Conference: 2022 Smart Technologies, Communication and Robotics (STCR)

Pages: 1-5

Year: 2022

Impact: 1

15. Characterization and Quantization of Medicinal Drugs Using Biomedical Optical Spectroscopy Methods

Authors: GSU A. Sivasubramanian

Journal: International Journal of Engineering Research & Technology

Volume: 2 (2)

Pages: 1-10

Year: 2013

Impact: 1

16. Mobile Phone Antennas and Its Radiation Patterns

Authors: R Seetharaman, GS Uthayakumar, N Kumaravel

Conference: 2008 10th International Conference on Electromagnetic Interference and Compatibility

Year: 2008

Impact: 1

17. Characterization of Rigid Electromagnetic Interference Shielding Composite Using Biomass-Derived Musa Fiber and Industry Waste Functional Filler

Authors: GS Uthayakumar, G Kulanthaivel, V Ulagamuthalvi

Journal: Biomass Conversion and Biorefinery

Year: 2024

18. High Gain Dual Wide-Band Annular Ring Two-Port Antenna for Millimeter Wave Applications

Authors: GS Uthayakumar, B Jackson, BSK Reddy, P Sharmila, R Maya, J Karthi

Conference: 2023 4th International Conference on Smart Electronics and Communication

Year: 2023

19. Intelligent Caching Strategies for 5G Edge Networks Using Machine Learning

Authors: NVR Guduri, S Sethu, R Shalinirajan, R Reena, M Karthikeyan

Conference: 2023 4th International Conference on Smart Electronics and Communication

Year: 2023

 

Tao Yu | Engineering | Best Researcher Award

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🌟Dr. Tao Yu, Engineering, Best Researcher Award🏆

  • Doctorate at McGill, Canada

Tao Yu is a dedicated Postdoctoral Researcher specializing in combustion diagnostics at McGill University’s Alternative Fuels Laboratory. With a Ph.D. in Mechanical Engineering from Shanghai Jiao Tong University, he has garnered expertise in advanced optical diagnostics for studying fundamental combustion phenomena. Tao’s research is motivated by the urgent need to develop sustainable fuels and mitigate carbon emissions, addressing critical challenges posed by climate change and energy scarcity.

Author Metrics:

Tao Yu has established a strong academic presence with over 640 citations to his journal publications. His contributions to the field of combustion diagnostics have been recognized internationally through presentations at prestigious conferences and invitations to review articles for leading journals in optics, combustion, and engineering.

Scopus Profile

Google Scholar Profile

Tao Yu. Based on the provided details, Tao Yu has an h-index of 17 and has been cited 623 times across 381 documents. This suggests significant impact and influence within their field of research. Tao Yu’s affiliation is with King Abdullah University of Science and Technology in Thuwal, Saudi Arabia.

Education:

Tao completed his Ph.D. in Mechanical Engineering from Shanghai Jiao Tong University, where he investigated flame emission tomography and tomographic absorption spectroscopy. He also pursued doctoral joint training at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany, focusing on 4D primary particle size evaluation. Prior to his doctoral studies, he obtained a Bachelor’s degree in Automobile Application Engineering from Jilin University.

Research Focus:

Tao’s research centers on the development and application of advanced optical diagnostics for understanding combustion phenomena of recyclable and sustainable fuels. His expertise encompasses techniques such as emission spectroscopy, Raman spectroscopy, and tomography (including 4D tomography). He aims to bridge the gap between fundamental combustion science and practical applications to address pressing environmental and energy challenges.

Professional Journey:

Tao’s professional journey spans research positions at esteemed institutions including McGill University and the Clean Combustion Research Center of KAUST. He has led projects on optical diagnostics for aluminum dust flames and hydrogen production from aluminum-water reactions. His contributions have been instrumental in advancing the understanding of combustion processes and facilitating the development of cleaner energy technologies.

Honors & Awards:

Tao has received several prestigious honors and awards, including nominations for Excellent PhD Dissertation from IC Engine Society and Shanghai Jiao Tong University. He has also been recognized with scholarships such as the Postdoctoral Development Scholarship and the Ruth Mulan Chu Chao Scholarship for his outstanding academic achievements.

Publications Noted & Contributions:

Tao’s publications encompass a wide range of topics in combustion diagnostics, tomographic imaging, and spectroscopic techniques. His notable contributions include papers in renowned journals such as Optics Express, Optics Letters, and Review of Scientific Instruments, providing valuable insights into combustion processes and advancing the field of sustainable energy.

Three-dimensional particle size determination in a laminar diffusion flame by tomographic laser-induced incandescence

  • Authors: FJ Bauer, T Yu, W Cai, FJT Huber, S Will
  • Published in Applied Physics B in 2021
  • This paper presents a method for determining three-dimensional particle sizes in a laminar diffusion flame using tomographic laser-induced incandescence.

Experimental characterization of flame/flow dynamics during transition between stable and thermo-acoustically unstable conditions in a gas turbine model combustor

  • Authors: C Ruan, F Chen, T Yu, W Cai, X Li, X Lu
  • Published in Aerospace Science and Technology in 2020
  • The study investigates the flame and flow dynamics during the transition from stable to thermo-acoustically unstable conditions in a gas turbine model combustor.

Temperature dependent Raman spectra of ammonia ranging from 3150 cm−1 to 3810 cm−1 for combustion applications

  • Authors: C Yang, D Ezendeeva, T Yu, G Magnotti
  • Published in Optics Express in 2021
  • This paper presents temperature-dependent Raman spectra of ammonia for combustion applications over a range of wavelengths.

Fiber-bundle-based 2D Raman and Rayleigh imaging for major species and temperature measurement in laminar flames

  • Authors: T Yu, C Yang, P Sharma, AS AlRamadan, G Magnotti
  • Published in Optics Letters in 2022
  • The paper introduces a fiber-bundle-based 2D Raman and Rayleigh imaging system for measuring major species and temperature in laminar flames.

High-Speed 2-D Raman and Rayleigh Imaging of a Hydrogen Jet Issued from a Hollow-Cone Piezo Injector

  • Authors: B Wu, P Sharma, T Yu, L Palombi, H Wu, MB Houidi, N Panthi, W Roberts, …
  • Published in an SAE Technical Paper in 2023
  • This paper describes high-speed 2D Raman and Rayleigh imaging of a hydrogen jet issued from a hollow-cone piezo injector.

Research Timeline:

Tao’s research journey began with his Ph.D. studies at Shanghai Jiao Tong University, where he conducted groundbreaking research on flame emission tomography and tomographic absorption spectroscopy. He then pursued postdoctoral positions at McGill University and KAUST, leading projects on optical diagnostics for various combustion processes. His research timeline reflects a continuous commitment to advancing knowledge in combustion science and addressing global energy challenges.

Collaborations and Projects:

Throughout his career, Tao has collaborated with leading researchers and contributed to impactful projects in combustion science. Notable collaborations include his work at McGill University, where he led projects on aluminum dust flames and hydrogen production. His multidisciplinary collaborations have enabled him to tackle complex research questions and develop innovative solutions for sustainable energy production and carbon emission reduction.

Jiaqing Zhu | Engineering | Best Researcher Award

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🌟 Dr. Jiaqing Zhu, Shenzhen Institute for Technology Innovation, National Institute of Metrology, China, China: Engineering🏆

Professional Profiles:

Bio Summary:

Dr. Jiaqing Zhu is a highly accomplished mechanical engineer specializing in precision manufacturing and measurement at the micro-nano scale. With a Doctor of Philosophy in Engineering, he has made significant contributions to the field through innovative research and a successful professional journey. His work focuses on nanoparticle sizing and concentration measurement using cutting-edge technology, particularly nanoparticle chips. Dr. Zhu is currently a post-doctoral researcher at the Shenzhen Institute for Technology Innovation, National Institute of Metrology, China.

Education:

  • Bachelor’s Degree: China Jiliang University, 2011-2015
  • Master’s Degree: Kyushu University, 2016-2020
  • Doctoral Degree: Kyushu University, 2020-2023

Research Focus:

Dr. Zhu’s primary research interests lie in precision manufacturing and the measurement of micro-nano particles. His expertise includes nanoparticle sizing and concentration measurement, particularly for polydispersed particles, utilizing advanced technologies such as nanoparticle chips.

Professional Journey:

Currently serving as a post-doctoral researcher at the Shenzhen Institute for Technology Innovation, National Institute of Metrology, China, Dr. Zhu has demonstrated a strong commitment to advancing the field of precision engineering. His professional journey includes academic achievements and impactful contributions to both national and international conferences.

Honors & Awards:

  • Best Paper Award, 18th International Conference on Precision Engineering, 2020
  • Best Presentation Award, 2021 Japan Society for Precision Engineering Spring Conference
  • Excellent Presentation Award, The 10th Engineering Research Planning Seminar at Kyushu University, 2021

Publications Top Noted & Contributions:

Dr. Zhu has authored several influential papers and proceedings, contributing significantly to the knowledge base in precision engineering. His work spans various international conferences and journals, showcasing his expertise in nanoparticle measurement and characterization.

Journal Papers:

Measurement of molar concentration spectra for nanoparticle with multi-modal nanoparticle size distribution using nanoparticle chip

  • Authors: Jiaqing Zhu, Terutake Hayashi*, Syuhei Kurokawa
  • Journal: Precision Engineering
  • Volume: 74(2022)
  • Pages: 460-468

Nanoparticle sizing for polydispersed particles using nanoparticle chip

  • Authors: Jiaqing Zhu, Terutake Hayashi*, Syuhei Kurokawa
  • Journal: Transactions of The JSME (in Japanese)
  • Volume: 86, 892 (2020)
  • Pages: 20-00220

Measurement of number-weighted particle size distribution for CMP slurry using nanoparticle chip

  • Authors: Jiaqing Zhu*, Terutake Hayashi, Syuhei Kurokawa
  • Journal: Precision Engineering
  • Volume: 86(2024)
  • Pages: 203-212
Proceedings:

Measurement of molar concentration spectrum based on number-weighted particle size distribution for polydispersed particles using nanoparticle chip

  • Authors: Jiaqing Zhu, Terutake Hayashi*, Syuhei Kurokawa
  • Conference: 23rd IMEKO World Congress
  • Paper No.: TC14-2-01
  • Pages: 1-4
  • Date: August 2021

Nanoparticle sizing for CMP slurry using nanoparticle chip

  • Authors: Jiaqing Zhu, Terutake Hayashi*, Syuhei Kurokawa
  • Conference: 10th International Conference on Leading Edge Manufacturing in 21st Century (LEM21)
  • Paper No.: 024
  • Pages: 1-2
  • Date: November 2021

Measurement of molar concentration spectrum for nanoparticle with multi-modal nanoparticle sizing distribution using nanoparticle chip

  • Authors: Jiaqing Zhu, Terutake Hayashi*, Syuhei Kurokawa
  • Conference: 18th International Conference on Precision Engineering (ICPE2020)
  • Paper No.: D-1-1
  • Pages: 1-2
  • Date: November 2020

Measurement of number-based particle sizing distribution using nanoparticle micro array

  • Authors: Jiaqing Zhu, Terutake Hayashi*, Syuhei Kurokawa
  • Conference: 14th International Symposium on Measurement Technology and Intelligent Instruments (ISMTII2019)
  • Paper No.: 64
  • Pages: 1-4
  • Date: September 2019

A novel nanoparticle characterizing method using nanoparticle micro array

  • Authors: Terutake Hayashi*, Syuhei Kurokawa, Jiaqing Zhu
  • Conference: 17th International Conference on Precision Engineering (ICPE2018)
  • Paper No.: D-1-8
  • Pages: 1-2
  • Date: November 2018

Measurement of number-weighted particle size distribution for poly-dispersed particles using nanoparticle chip

  • Authors: Jiaqing Zhu, Terutake Hayashi*, Syuhei Kurokawa
  • Conference: 19th International Conference on Precision Engineering (ICPE2022)
  • Paper No.: C065
  • Pages: 1-2
  • Date: November 2022

Research Timeline:

  • 2011-2015: Bachelor’s degree at China Jiliang University
  • 2016-2020: Master’s degree at Kyushu University
  • 2020-2023: Doctoral degree at Kyushu University
  • 2023-Present: Post-doctoral researcher at Shenzhen Institute for Technology Innovation, National Institute of Metrology, China

This timeline illustrates Dr. Zhu’s academic and research journey, highlighting his progression from undergraduate studies to his current post-doctoral position.

Shubham Sanjay Joshi | Additive Manufacturing

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 🏆Dr. Shubham Sanjay Joshi, 🎉 Congratulations on Your Best Researcher Award! 🏆leading Researcher in Additive Manufacturing

  • Dr. Shubham Sanjay Joshi, Brunel Centre for Advanced Solidification Technology, Brunel University London, United Kingdom 

🌟 Heartiest congratulations to Dr. Shubham Sanjay Joshi for being honored with the prestigious Best Researcher Award! 🏆 Your tireless dedication and exceptional contributions to the field of Additive and Advanced Manufacturing are truly inspiring. 🚀 Your achievements reflect your passion and commitment to advancing knowledge and innovation. 🌐 May this recognition be a testament to your continued success in your research journey! 🎉 Keep shining and making significant strides in your field! 👏👨‍🔬

Professional Profiles:
Summary:
  • Enthusiastic and inherently curious researcher.
  • Self-motivated with experience in Additive and Advanced Manufacturing, Mechanics, and Electron Microscopy.
  • Aspires for a research-oriented career in Additive Manufacturing and Circular Metals post-PhD.
Current Experience (PhD Candidate at Groupe de Physique des Matériaux, Rouen, France):
  • Investigating deformation mechanisms of LPBF Ni-Cr alloy at room temperature and high temperature (up to 900°C).
  • Studying fatigue and cyclic behavior of LPBF Ni-Cr alloy.
  • Examining the influence of recycling of powder on mechanical properties.
  • Post-deformation characterization using TEM.
  • Investigating precipitates and Short Range Order in as-built and heat-treated LPBF Ni-Cr alloys.
Education:
  • PhD Candidate, Groupe de Physique des Matériaux, University of Rouen, INSA Rouen, CNRS Lab, France (2020-2023).
  • MSc. in Physical Metallurgy & Materials, RWTH Aachen, Germany (2017-2020).
  • Bachelors in Metallurgical & Materials Engineering, National Institute of Technology, Jamshedpur, India (2013-2017).
Invited Seminars:
  • Lawrence Livermore National Laboratory, USA (Sept. 2022).
  • National group of Metal alloys for AM (April 2022).
  • University of Rouen (Dec 2022).
Skills:
  • Mechanical testing (Room/High temperature, Tensile, Fatigue).
  • Processing (LPBF of Scalmalloy®, INVAR, INCONEL).
  • Microscopy (SEM- ECCI, EDS, EBSD; TEM; XRD; Optical microscopy).
  • Software (ThermoCalc, FactSage, Igor PRO, Materialise MAGICS).
PhD Research:
  • Investigated strain hardening mechanisms of L-PBF Ni20Cr alloy.
  • Explored high-temperature tensile properties and microstructure of Ni20Cr alloy.
  • Quantified microstructural contribution to yield stress and strain hardening.
Research Focus:

Dr. Shubham Sanjay Joshi’s research primarily focuses on the field of Additive and Advanced Manufacturing, with specific expertise in the Laser Powder Bed Fusion (LPBF) process. His work involves investigating deformation mechanisms, fatigue behavior, and the influence of recycling on the mechanical properties of LPBF Ni-Cr alloy. Additionally, he explores the microstructure and precipitate formation in as-built and heat-treated LPBF Ni-Cr alloys.

Professional Journey:
  • PhD Candidate (Groupe de Physique des Matériaux, Rouen, France, 2020-2023):
    • Investigated deformation mechanisms of LPBF Ni-Cr alloy at varying temperatures.
    • Explored fatigue and cyclic behavior of LPBF Ni-Cr alloy.
    • Studied the impact of recycling of powder on mechanical properties.
    • Conducted post-deformation characterization using Transmission Electron Microscopy (TEM).
    • Investigated precipitates and Short Range Order in as-built and heat-treated LPBF Ni-Cr alloys.
  • Research Fellow (Brunel Centre for Advanced Solidification Technology, London, UK, Oct 2023-present):
    • Focused on the rejuvenation of fatigued metals in the context of Circular Metals.
    • Emphasized the physical metallurgy aspect for metallic components within a global health service system.
Honors & Awards:
  • French Society of Metallurgy and Materials Congress 2021:
    • Received the first prize award for the poster presentation on “Mechanical and microstructural disparities in Additively Manufactured and Cast Ni20Cr alloy.”
Publications & Contributions:

Dr. Joshi has made significant contributions to the field, publishing research findings in reputed journals and presenting at various conferences. Notable publications include:

  1. “On the origin of the strain hardening mechanisms of Ni20Cr alloy manufactured by laser powder bed fusion” – International Journal of Plasticity, April 2023.
  2. “Quantifying microstructural contribution to yield stress and strain hardening of Ni20Cr alloy manufactured by laser powder bed fusion with different volumetric energy densities” – Journal of Alloys and Compounds, September 2023.
  3. “Impact of laser powder bed fusion processing on the cyclic and fatigue properties of Ni20Cr alloy” – Materials Science & Engineering A, November 2023.
Research Timeline:
  • PhD Candidacy (Oct 2020-Sept 2023):
    • Investigated LPBF Ni-Cr alloy deformation mechanisms.
    • Explored fatigue and cyclic behavior.
    • Studied recycling effects on mechanical properties.
    • Conducted post-deformation TEM characterization.
    • Investigated precipitates and Short Range Order in LPBF Ni-Cr alloys.
  • Research Fellow (Oct 2023-present):
    • Focused on the rejuvenation of fatigued metals in Circular Metals.
    • Emphasized physical metallurgy for metallic components in global health service systems.
Additional Notes:
  • Dr. Joshi has presented his research at various international conferences, showcasing his expertise in the field.
  • He possesses a strong educational background, having pursued MSc. in Physical Metallurgy & Materials and a Bachelors in Metallurgical & Materials Engineering from renowned institutions.
  • His language proficiency includes English, Hindi, Marathi (Native/Bilingual), and elementary proficiency in German and French.