Aim and Scope

JAMMES aims to make a significant contribution to advancing knowledge in mechanical systems and to have a positive impact on people's welfare worldwide. JAMMES welcomes pioneering contributions to design and manufacture, mechatronic integration, and energy systems, with emphasis on design, implementation, experimentation, and industrial or societal applications.

Scope:

1. Mechanical Engineering

  • Mechanical system design and analysis
  • Engineering mechanics (statics, dynamics, and mechanics of materials)
  • Machine elements and power transmission systems
  • Thermal and fluid engineering (heat transfer, HVAC, fluid mechanics)
  • Mechanical vibrations and material fatigue
  • Tribology and lubrication systems
  • Failure analysis and reliability engineering
  • Materials science and engineering
  • Composite and smart materials
  • Micro- and nano-engineering
  • Powder metallurgy

2. Engineering Design

  • Engineering product design and development
  • Design methodologies (DFX, DFA, DFM, concurrent engineering)
  • Computer-Aided Design (CAD), Computer-Aided Engineering (CAE), and engineering simulation
  • Structural analysis and design optimization
  • Ergonomics and human-centered design
  • Systems design and modular design approaches
  • Value engineering and cost-effective design strategies

3. Manufacturing and Production Engineering

  • Manufacturing processes (conventional and non-conventional)
  • CNC machining and Computer-Aided Manufacturing (CAM) systems
  • Additive manufacturing and 3D printing technologies
  • Manufacturing automation and digitalization
  • Production systems and lean manufacturing
  • Quality control and quality engineering
  • Maintenance engineering and asset management
  • Industrial engineering with a focus on manufacturing technologies

4. Mechatronics Engineering

  • Mechatronic systems and mechanical–electrical–control integration
  • Sensors, actuators, and instrumentation systems
  • Control systems (classical, modern, and intelligent control)
  • Robotics (industrial robots, mobile robots, AGVs, ROVs, UAVs)
  • Automation systems and industrial control
  • Embedded systems and real-time control
  • Internet of Things (IoT) for mechatronic systems
  • Artificial intelligence for mechatronic applications

5. Intelligent Systems, Digitalization, and Industry 4.0

  • Smart manufacturing and cyber-physical systems
  • Digital twin technologies for mechanical and manufacturing systems
  • Machine learning for prediction, control, and optimization
  • Big data and industrial analytics
  • Predictive maintenance and condition monitoring

6. Applied Engineering Applications and Case Studies

  • Industrial applications of mechanical and mechatronic technologies
  • Case studies in industrial automation systems
  • Prototype development and innovative product design
  • Appropriate technology for societal and community needs
  • Engineering applications in energy, maritime, agriculture, and transportation sectors

7. Energy Systems

  • Energy generation systems
  • Energy conversion and energy management
  • Thermal and fluid systems for energy applications
  • Renewable and alternative energy systems
  • Control, instrumentation, and mechatronics for energy systems
  • Energy efficiency and sustainability
  • Energy applications for industrial and transportation systems
  • Reliability and maintainability of mechanical systems and components in industrial/energy environments