Dr.Olga Lastowska | Post-Weld Finishing Awards | Innovations in Welding Research Award

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Dr.Olga Lastowska | Post-Weld Finishing Awards | Innovations in Welding Research Award

 

Dr. Olga Łastowska, Gdynia Maritime University,Poland

Dr. Olga Łastowska is a dynamic academic and researcher in the field of mechanical engineering, currently serving as an Assistant Professor at the Department of Basic Engineering, Faculty of Mechanical Engineering, Maritime University of Gdynia, Poland. With roots tracing back to Mykolayiv, Ukraine, Dr. Łastowska holds both Polish and Ukrainian citizenship and is fluent in Ukrainian, Polish, Russian, and English.

Her academic journey began with a Master of Mechanical Engineering from the National University of Shipbuilding named after Admiral Makarov, Ukraine, followed by a Doctor of Technical Sciences in Mechanical Engineering from the National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute” in 2016. Throughout her career, Dr. Łastowska has held various academic and managerial roles, including Vice-Dean for Student Affairs and International Cooperation at the National University of Shipbuilding named after Admiral Makarov.

Professional Profiles:

 

ORCID

📚 Education:

Her academic prowess includes Trainer qualifications in ship system design from Gdańsk, Poland, and an Associate Professor title from the National University of Shipbuilding. Her expertise is complemented by a Master’s in Mechanical Engineering from the same institution.

💼 Employment:

As an Assistant Professor at the Maritime University of Gdynia since 2017, Dr. Łastowska imparts knowledge at the Department of Basic Engineering. Previously, she held significant roles at the National University of Shipbuilding, including Vice-Dean and Manager of the Cadmatic Training Centre.

🔬 Research Interests:

Dr. Łastowska’s research delves into challenging areas like machining of hard-to-machine materials, weld joint reliability, and gas turbine operation. Her investigations drive innovation in mechanical engineering.

🏆 Awards and Honors:

Recognition has followed her endeavors, including the prestigious Silver Medal at the International Fair of Inventions and multiple awards for scientific achievements and organizational excellence.

🌍 International Cooperation:

Through collaborative projects, she fosters ties between Ukrainian and Polish institutions, promoting knowledge exchange and educational enhancement in shipbuilding.

Dr. Łastowska’s journey epitomizes dedication, expertise, and international collaboration in advancing mechanical engineering.

 Publication Top Notes:

Exploring the Potential Application of an Innovative Post-Weld Finishing Method in Butt-Welded Joints of Stainless Steels and Aluminum Alloys

The Innovative Post-Weld Finishing Method and Non-Standard Cutting Tool for Carrying Out this Method

Analysis of the Sum Minimization Possibilities of Heat Exchanger Core Masses in Internal Combustion Engine Cooling Systems

Influence of Innovative Post-Weld Finishing Method on Bead Surface Quality

Dynamic Processes Modeling in a Peristaltic Pump with a Hydraulic Drive for the Bingham Fluid

Mr. Fu Chao| Weldability of High-Grade Pipeline Steel award | Best Researcher Award

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Mr. Fu Chao| Weldability of High-Grade Pipeline Steel award | Best Researcher Award

Mr. Fu Chao, Shandong institute of petroleum and chemical technology, China

Fu Chao, a distinguished male researcher in the field of welding processes and materials science, was born in July 1987. He has made significant contributions to the advancement of welding technology, particularly in the evaluation of performance for high-strength pipeline steel and marine steel.

In 2008, Fu Chao completed his undergraduate studies in Mechanical Design, Manufacturing, and Automation at Shandong University of Technology. Subsequently, he pursued his passion for research by obtaining a master’s degree in Materials Science and Engineering from China University of Petroleum (East China) in June 2011.

 

Professional Profiles:

 

🎓 Education:

  • Bachelor’s Degree in Mechanical Design, Manufacturing, and Automation, Shandong University of Technology (July 2008)
  • Master’s Degree in Materials Science and Engineering, China University of Petroleum (East China) (June 2011)
  • Ph.D. in Power Engineering and Engineering Thermophysics, China University of Petroleum (East China) (June 2023)

👨‍🔬 Professional Experience:

  • Director, Process Technology Research Center, Shandong Shengli Steel Pipe Co., Ltd. (July 2011 – July 2020)
  • Associate Professor, College of Intelligent Manufacturing and Control Engineering, Shandong University of Petrochemical Technology (July 2020 – Present)

🔍 Research Focus:

  • Welding processes and performance evaluation of high-strength pipeline steel and marine steel
  • Submerged arc welding technology for thick-walled steel
  • Composite welding of stainless steel and carbon steel
  • Special welding techniques
  • Embrittlement mechanism of large-walled X80 pipeline steel under extremely cold temperatures

📚 Research Projects:

  • Key participant in a National Natural Science Foundation Youth Fund project on the phase transformation mechanism of M-A constituents in the critical reheat coarse crystal area of low-alloy high-strength steel welding.
  • Principal Investigator for projects funded by the Shandong Provincial Natural Science Foundation and municipal science and technology development plans.

📝 Publications and Patents:

  • Author of more than 10 articles
  • Holder of two granted invention patents and two utility model patents.

Publication Top Notes:

Unsupervised Deep Learning for Random Noise Attenuation of Seismic Data

Observation System Optimization of Offshore Acoustic Exploration for Estimating Submarine Geological Structures via Directivity Analysis

3-D Structural Complexity-Guided Predictive Filtering: A Comparison Between Different Non-Stationary Strategies

A new denoising strategy and the X-shaped supplement denoising operator targeting time-reversed mirror imaging technique

Reservoir Characterization Using Multi-component Seismic Data in a Novel Hybrid Model Based on Clustering and Deep Neural Network

 

Dr. Nikita Martyushev | Electric contact welding award | Best Researcher Award-

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Dr. Nikita Martyushev | Electric contact welding award | Best Researcher Award

Dr. Nikita Martyushev, Tomsk Polytechnic University, Russia

Nikita Vladimirovich Martyushev is a prominent figure in the field of materials science and engineering, with a robust background in academia, research, and industry. Born in 1981 in Tomsk, Russia, Martyushev has dedicated his career to advancing the understanding and application of additive technologies, 3D printing with metals and alloys, and mathematical modeling of materials structure and properties.

He obtained his Master’s degrees from Tomsk Polytechnic University, specializing first in Dynamics and Acoustics of Machine Tools and Machine Complexes, and later in Engineering Pedagogy, focusing on Higher Education Teaching. Subsequently, he pursued an MBA at the same institution, demonstrating his interdisciplinary approach to education and professional development.

 

Professional Profiles:

 

🎓 Education & Academic Background:

  • Master’s degree in Dynamics and Acoustics of Machine Tools and Machine Complexes, Tomsk Polytechnic University, 2004
  • Master’s degree in Engineering Pedagogy, Institute of Engineering Pedagogy, Tomsk Polytechnic University, 2003
  • MBA, Tomsk Polytechnic University, 2004
  • Ph.D. in Technical Sciences, Tomsk Polytechnic University, 2008 (Thesis: “Improving the Performance Properties of Lead Bronzes by Directed Structure Formation”)

🔬 Scientific Interests & Expertise:

  • Additive Technologies & 3D Printing with Metals and Alloys
  • Mathematical Modeling of Materials Structure and Properties
  • Ferrous and Nonferrous Alloys
  • Modern Learning Technologies & Teaching Activities

👨‍🏫 Teaching Activity:

Dr. Martyushev is dedicated to nurturing the next generation of engineers and scholars. As an Associate Professor at Tomsk Polytechnic University, he imparts invaluable knowledge in disciplines such as Materials Science, Mechanical Engineering, and Additive Technologies. Through his teaching, he instills a deep understanding of the scientific foundations of materials science and the interrelation between material structure and properties.

🏆 Awards & Recognitions:

Dr. Martyushev’s contributions have garnered widespread recognition, including:

  • Winner of the StroyTransGas Award (Russia)
  • Laureate of the All-Russian competition “Engineer of the Year” (Russia)
  • Award Winner for Researches of Tomsk Oblast and Tomsk City (Russia)
  • Leader and Participant of Numerous Grants

Publication Top Notes:

Stochastic Models and Processing Probabilistic Data for Solving the Problem of Improving the Electric Freight Transport Reliability

Determination of the Reliability of Urban Electric Transport Running Autonomously through Diagnostic Parameters

A Methodological Approach to the Simulation of a Ship’s Electric Power System

Increasing the Efficiency of Diagnostics in the Brush-Commutator Assembly of a Direct Current Electric Motor

Feasibility demonstration of normative models for sheet-rolling shop productivity. Message 1

Synthesis of the heddle drive mechanism

 

Research Pioneer Award in Welding

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Introduction of Research Pioneer Award in Welding

Embark on a journey of innovation and excellence with the Research Pioneer Award in Welding. This distinguished accolade celebrates visionaries who have redefined the landscape of welding through groundbreaking research and unparalleled contributions.

Award Eligibility:

Open to researchers and professionals, this award recognizes individuals without age limits, emphasizing a diverse range of qualified candidates. Exceptional qualifications and a history of impactful publications are key considerations.

Qualification and Publications:

Candidates must hold relevant qualifications and demonstrate a significant impact on the field of welding through pioneering research. Exceptional publications that have advanced welding technologies and methodologies will be crucial for consideration.

Requirements and Evaluation Criteria:

Submissions must meet specific criteria, including a comprehensive biography, abstract, and supporting files showcasing the depth and significance of the research. Evaluation criteria focus on the originality, impact, and advancement brought about by the research.

Submission Guidelines:

Follow the provided guidelines for a seamless submission process. Ensure that all required documents, including the biography, abstract, and supporting files, are submitted to provide a comprehensive overview of the research.

Recognition and Community Impact:

Recipients of this award gain prestigious recognition for their pioneering contributions to the field of welding. The award not only acknowledges individual excellence but also highlights the broader positive impact on the welding community and industry.

Biography and Abstract:

Craft a detailed biography showcasing your journey and achievements in the realm of welding research. The abstract should succinctly convey the essence and significance of the groundbreaking research.

Supporting Files:

Include relevant files that provide evidence of the impact of the research, such as research papers, publications, or project documentation.

Welcome to the Business Innovation Award in Welding, an esteemed recognition designed to celebrate and honor businesses that have demonstrated outstanding innovation in the field of welding. This award acknowledges enterprises that have made significant strides in advancing welding technologies, processes, and solutions.

Award Eligibility:

  • Open to businesses operating in the welding industry.
  • Eligible candidates should showcase notable innovations in welding processes or technologies.

Age Limits: There are no specific age limits for businesses applying for this award.

Qualification: Businesses must demonstrate a proven track record of innovative contributions to the welding industry.

Publications and Requirements: Applicants are encouraged to submit relevant publications, case studies, or documentation highlighting their innovative initiatives in welding.

Evaluation Criteria: A distinguished panel of judges will assess applicants based on the innovative nature of their contributions, the impact on the welding industry, and the effectiveness of implemented solutions.

Submission Guidelines:

  • Provide a comprehensive overview of your business's innovation in welding.
  • Include case studies or examples of successful implementation.
  • Attach supporting documents, publications, or media showcasing your innovative solutions.

Recognition: Winning businesses will receive recognition for their outstanding contributions to advancing the welding industry through innovative practices.

Community Impact: The award acknowledges businesses whose innovations have positively impacted the welding community and industry.

Biography: Businesses are required to provide a brief biography outlining their history, mission, and key achievements in the welding industry.

Abstract and Supporting Files: Include a concise abstract summarizing your business's innovative initiatives in welding. Attach supporting files to substantiate your contributions.