Design, Optimization and Mechanical Modeling (CO2M)
Objective of the CO2M department
The general objective of our work is the development of new knowledge, methods and tools intended for paradigm changes in the design, dimensioning and manufacturing of complex mechanical, mechatronic, or even thermomechanical systems, and thus helping to invent the office. studies of the future and the factory of the future, in the era of Industry 4.0. Research work is developed in partnership with manufacturers to allow them to innovate while streamlining their routine engineering processes.
Thematics
- Advanced mechanical systems design: “Proactive design, manufacturing and assembly of mechanical products and structures", “Digital and knowledge-based models, methods and tools for the design of mechanical systems and parts"
- Numerical modeling and optimization in mechanics: “Multiscale and multilevel modeling, simulation and optimization", “Numerical modeling approach to complex and non-linear phenomena", “Quantum mechanics for quantum algorithms", “Thermo coupling -physics and optimization of thermal systems »
- Heat transfers and thermo-physical couplings: “Modeling of multi-physical phenomena", “Thermal and energetic systems", “Digital fluid mechanics", “Inverse methods"
- Quantum information for the nanoscale integration of quantum communication protocols: “Geometry for quantum computing", “Theory of quantum control", “Integrated quantum systems"
- Optimization of manufacturing processes: “Optimization of architecture, topology, materials and associated manufacturing processes", “Design and integration of innovative manufacturing processes", “Manufacturing and characterization of bio-sourced materials"
Technicals Implementation
These research axes are supplemented by a transversal research axis dedicated to the Design, modeling and optimization for 3D and 4D additive manufacturing: “Methods and tools for a 3D additive manufacturing oriented design”, “4D printing based on intelligent materials ”,“ Vibro-acoustics for the characterization of parts obtained by additive manufacturing ”.
Frédéric DEMOLY
Head
frederic.demoly@utbm.fr
Phone : +33 (0)3 84 58 39 55
Sébastien ROTH
Co-Head
sebastien.roth@utbm.fr
Phone : +33 (0)3 84 58 39 01
- kc_data:
- a:7:{s:4:"mode";s:2:"kc";s:3:"css";s:0:"";s:9:"max_width";s:0:"";s:7:"classes";s:0:"";s:9:"thumbnail";s:0:"";s:9:"collapsed";s:0:"";s:9:"optimized";s:0:"";}
- kc_raw_content:
- [kc_row use_container="yes" _id="370430"][kc_column width="12/12" video_mute="no" _id="48768"][kc_single_image image_size="full" _id="840238" image_source="media_library" image="11125"][kc_spacing height="41px" _id="415035"][/kc_column][/kc_row][kc_row use_container="yes" _id="296583"][kc_column width="59.66%" _id="416397"][kc_column_text _id="89630"]
Design, Optimization and Mechanical Modeling (CO2M)
Objective of the CO2M department
The general objective of our work is the development of new knowledge, methods and tools intended for paradigm changes in the design, dimensioning and manufacturing of complex mechanical, mechatronic, or even thermomechanical systems, and thus helping to invent the office. studies of the future and the factory of the future, in the era of Industry 4.0. Research work is developed in partnership with manufacturers to allow them to innovate while streamlining their routine engineering processes.
Thematics
- Advanced mechanical systems design: "Proactive design, manufacturing and assembly of mechanical products and structures", "Digital and knowledge-based models, methods and tools for the design of mechanical systems and parts"
- Numerical modeling and optimization in mechanics: "Multiscale and multilevel modeling, simulation and optimization", "Numerical modeling approach to complex and non-linear phenomena", "Quantum mechanics for quantum algorithms", "Thermo coupling -physics and optimization of thermal systems »
- Heat transfers and thermo-physical couplings: "Modeling of multi-physical phenomena", "Thermal and energetic systems", "Digital fluid mechanics", "Inverse methods"
- Quantum information for the nanoscale integration of quantum communication protocols: "Geometry for quantum computing", "Theory of quantum control", "Integrated quantum systems"
- Optimization of manufacturing processes: "Optimization of architecture, topology, materials and associated manufacturing processes", "Design and integration of innovative manufacturing processes", "Manufacturing and characterization of bio-sourced materials"
Technicals Implementation
These research axes are supplemented by a transversal research axis dedicated to the Design, modeling and optimization for 3D and 4D additive manufacturing: “Methods and tools for a 3D additive manufacturing oriented design”, “4D printing based on intelligent materials ”,“ Vibro-acoustics for the characterization of parts obtained by additive manufacturing ”.
[/kc_column_text][/kc_column][kc_column width="40.33%" _id="97591"][kc_column_text _id="135116"]Frédéric DEMOLY
Head
frederic.demoly@utbm.fr
[/kc_column_text][kc_spacing height="40px" _id="269841"][kc_column_text _id="899446"]
Phone : +33 (0)3 84 58 39 55Sébastien ROTH
Co-Head
sebastien.roth@utbm.fr
[/kc_column_text][/kc_column][/kc_row]
Phone : +33 (0)3 84 58 39 01