Frédéric Demoly, researcher at the ICB (UTBM) is promoted laureate of the junior innovation chair of the IUF
Frédéric Demoly, University Professor in the CO2M department of the Laboratoire ICB Laboratory (UTBM), was rewarded for his research work on 4D printing and promoted to the junior innovation chair of the Institut universitaire de France (IUF).
Selected by an international jury for the quality of her research, Frédéric Demoly aims to develop a hybrid 4D printing process that combines several materials with different properties in the same 3D object. This process will meet industrial needs in terms of adaptability and functionality.
- Contact : Frederic.demoly@utbm.fr
4D printing, a booming technology
It will have taken nearly thirty years of development to see additive manufacturing impose itself in our daily lives and diversify, now making it possible to produce in polymer, metal or ceramic 3-dimensional (3D) objects of shapes inaccessible by conventional means. 4D printing is a technology that combines additive manufacturing and active materials under the effect of stimulation (electric and/or magnetic fields, light, temperature, pH, etc.). It allows 3D objects to have the ability to change properties, shapes and functionalities over time. However, the currently controlled 4D printing leads to objects with low performance in response time, mechanical strength, etc.
F. Demoly
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Frédéric Demoly, University Professor in the CO2M department of the Laboratoire ICB Laboratory (UTBM), was rewarded for his research work on 4D printing and promoted to the junior innovation chair of the Institut universitaire de France (IUF).
Selected by an international jury for the quality of her research, Frédéric Demoly aims to develop a hybrid 4D printing process that combines several materials with different properties in the same 3D object. This process will meet industrial needs in terms of adaptability and functionality.
[/kc_column_text][kc_spacing height="30px" _id="992649"][/kc_column][/kc_row][kc_row use_container="yes" _id="211208"][kc_column width="45%" _id="603306"][kc_single_image image_size="full" _id="799588" image_source="media_library" image="42678"][kc_spacing height="10px" _id="115483"][kc_column_text _id="239805"]- Contact : Frederic.demoly@utbm.fr
4D printing, a booming technology
[/kc_column_text][kc_spacing height="10px" _id="349334"][kc_column_text _id="228067"]It will have taken nearly thirty years of development to see additive manufacturing impose itself in our daily lives and diversify, now making it possible to produce in polymer, metal or ceramic 3-dimensional (3D) objects of shapes inaccessible by conventional means. 4D printing is a technology that combines additive manufacturing and active materials under the effect of stimulation (electric and/or magnetic fields, light, temperature, pH, etc.). It allows 3D objects to have the ability to change properties, shapes and functionalities over time. However, the currently controlled 4D printing leads to objects with low performance in response time, mechanical strength, etc.
F. Demoly
[/kc_column_text][kc_spacing height="20" _id="684578"][kc_column_text _id="91493"]To learn more about 4D printing:
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