Microengineering is a fascinating field of macroscopic effects. This science is an archetype of innovations located at the intersection of mechanics,...
Microengineering is a fascinating field of macroscopic effects. This science is an archetype of innovations located at the intersection of mechanics, electronics, materials science and information technology. Microengineering has become vital for many industries: manufacturing technology, biomedicine, robotics and many others. The qualification of a microengineer guarantees the beginning of a diverse and interdisciplinary career.
The role of microtechnical engineers is to address the use of physical laws that govern the processes of miniaturization. Perhaps robotics best illustrates this intersection of different disciplines: even if robots are not yet miniaturized, their principle of operation is based on the combination and coordination of mechanical, electronic, optical or computational components.
As a result, numerous and diverse fields of work of microtechnical engineers are often closely related to industrial production. This means that they need to find manufacturing technologies that are both efficient (robotics, spraying, assembly methods, etc.) and financially viable for their purposes. The development of these methods is often based precisely on the use or tools that are themselves the result of microengineering.
Program Features
Microtechnical engineers are absolutely required to be able to understand the product in its entirety. In addition, they are also often called upon to serve as a project manager and act as a real focal point in the center of many specialists from other engineering fields.
The first year of undergraduate studies is mainly devoted to the acquisition of scientific tools, such as mathematical analysis or physics. Students also come into contact with practical realities, among other things, with a CAD project. For him, they design an object that will be developed during the processing internship during the second year of study. The bachelor's degree program then covers all microtechnological sciences and is grouped around topics such as control systems, electronics and photonics, products and manufacturing. The first project completes the training.
Microtechnical engineers must fully understand the mechanics of the product in its entirety. In addition, they are also often called upon to serve as a project manager and act as a real focal point in the center of many specialists from other engineering fields. Some graduates join the innovation business as developers, consultants or project managers; others launch their own startups. And although the program is focused on industry and entrepreneurship, many graduates prefer to continue their academic career by defending their doctoral dissertation.