Dr. Nikolakopoulos: Design of mechanical and electromechanical devices

Congratulations, Dr. Nikolakopoulos, on winning the esteemed Best Researcher Award from Sciencefather !

Your dedication, innovative research, and scholarly contributions have truly made a significant impact in your field. Your commitment to advancing knowledge and pushing the boundaries of research is commendable. Here’s to your continued success in shaping the future of academia and making invaluable contributions to your field. Well done!

Dr. Nikolakopoulos, a distinguished academic and researcher in the field of Design of mechanical and electromechanical devices, holds a PhD in , Mechanical Engineering. His academic journey has been marked by a profound dedication to advancing Design of mechanical and electromechanical devices, specifically in Design of mechanical and electromechanical devices and its integration into CAD and Mechanical Engineering applications.

Professional Profiles:

• Scopus
• Google scholar
• Orcid

Education:

• He holds a Diploma in Mechanical Engineering (1990)
• Ph.D. in Mechanical Engineering (1996), rom the Department of Mechanical and Aeronautics
  Engineering of the University of Patras, Greece.

Citation :

• Citations    -2147
• h-index    –  23
• i10-index   –  48

Research activities 

• His research activities include hydrodynamic lubrication
  of journal and thrust bearings, stability, misalignment, wear and wear detection of journal bearings,
  tribology of artificial textured journal and thrust bearings, Magnetorheological, Nanomagnetorheological and Electrorheological fluids, Active Magnetic Bearings, Computational Fluid
  Dynamics (CFD) of Non-Newtonian lubrication of journal bearings, optimization of machine elements,
  piston ring tribology, tribology and dynamics of floating ring bearings, and crankshaft bearings.

Publiations all top Notes: 

• Design and simulation of a greenhouse in a computational environment (ANSYS/FLUENT) and an automatic control system in a LABVIEW environment
• Performance Prediction Model for Hydrodynamically Lubricated Tilting Pad Thrust Bearings Operating under Incomplete Oil Film with the Combination of Numerical and Machine-Learning Techniques.
• Turning a linear geometry force-balance accelerometer to a broadband seismometer: design, modeling, and evaluation
• Behavior of an Active Magnetic Bearing as a Stern Tube Bearing: A First Approach via Simulations
• Modelling of transient flow of piston ring-liner contact using synthetic lubricants
• Design, Modeling, and Evaluation of a Class-A Triaxial Force-Balance Accelerometer of Linear Based Geometry
• Optimum Selection of Coated Piston Rings and Thrust Bearings in Mixed Lubrication for Different Lubricants Using Machine Learning
• A Review of Sensors Used on Fabric-Handling Robot
• REDICTION OF CRACK DEPTH AND POSITION IN VIBRATING BEAMS USING ARTIFICIAL NEURAL NETWORKS
• On the influence of axial cylinder distortions on lubricant film and friction force of top piston ring conjunction near to TDC