Journal of Engineering Mechanics and Machinery (JEMM)
Journal of Engineering Mechanics and Machinery (JEMM) is a journal dedicated to promoting and accelerating the dissemination of new research findings. There is a wealth of exciting research activity in this field worldwide. The journal aims to provide academicians and scientists around the globe with a platform to share, promote, and discuss various emerging issues and developments in different areas of engineering mechanics and mechanical engineering.
Aims & Scope
Journal of Engineering Mechanics and Machinery (JEMM) is a journal dedicated to promoting and accelerating the dissemination of new research findings. There is a wealth of exciting research activity in this field worldwide. The journal aims to provide academicians and scientists around the globe with a platform to share, promote, and discuss various emerging issues and developments in different areas of engineering mechanics and mechanical engineering.
Aims
- To promote and accelerate the dissemination of new research findings across the fields of engineering mechanics and mechanical engineering globally.
- To provide academicians and scientists worldwide with a platform to share, promote, and discuss emerging issues and developments in all areas of engineering mechanics and mechanical engineering.
- To foster academic exchange, collaboration, and innovation in mechanical engineering research, applied mechanics, and engineering design.
- To advance knowledge and engineering practice through rigorous scholarly publication of original research in engineering mechanics and machinery.
Scope
The journal covers a wide range of topics related to engineering mechanics and mechanical engineering, including but not limited to:
Engineering Mechanics and Applied Mechanics
- Solid mechanics and structural analysis, including stress analysis, deformation, and structural stability
- Fluid mechanics and dynamics, including flow analysis, turbulence, and computational fluid dynamics
- Continuum mechanics and constitutive modeling, including material behavior, plasticity, and viscoelasticity
- Dynamics and vibration, including mechanical vibrations, structural dynamics, and control systems
Mechanical Engineering and Machinery Design
- Machine design and mechanism analysis, including kinematics, dynamics, and design optimization
- Manufacturing processes and systems, including machining, forming, additive manufacturing, and production engineering
- Robotics and mechatronics, including robotic systems, automation, and intelligent machinery design
- Thermal and energy systems, including heat transfer, thermodynamics, and energy conversion machinery