Future Mechanical Engineering Domains

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Discussion Overview

The discussion centers on the anticipated future technology specializations within the mechanical engineering domain, focusing on the technologies themselves rather than their applications. Participants explore various areas of specialization and their potential demand in the future.

Discussion Character

  • Exploratory
  • Debate/contested
  • Technical explanation

Main Points Raised

  • Some participants suggest that the same specializations currently in demand, such as materials, mechanism design, structural design, thermodynamics, and fluid dynamics, will continue to be relevant in the future.
  • Complex fluids, including the study of rheology, is mentioned as an emerging area that bridges physics and engineering, with applications in various fields like polymer solutions and oil extraction.
  • One participant questions which specific areas within mechanism design or structural design might be automated, proposing that topology optimization algorithms could play a significant role.
  • Another participant emphasizes that while automated tools will become more prevalent, the creative aspects of design will still require human input and cannot be fully automated.

Areas of Agreement / Disagreement

Participants generally express a range of views on future specializations, with some agreement on the continuity of current demands, but also highlight differing opinions on the impact of automation and the importance of creativity in design processes.

Contextual Notes

There is uncertainty regarding the specific future demands within subfields like mechanism design and structural design, as well as the extent to which automation will influence these areas.

Simas
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Hi,

Which technology specializations within the mechanical engineering domain will be most demanded in the future?

(I am looking for different technologies rather than for applications enabled by the technology. For example not 'robotics', but rather the technologies used for robotics)

Thanks a lot for your help!
 
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Probably the same specializations most demanded today (in no particular order):
materials
mechanism design
structural design
thermodynamics
fluid dynamics
etc.
 
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Complex fluids is (are?) an area of physics research that is slowly morphing into the engineering domain. Sometimes this is known as rheology, but the study of complex fluids is a bit broader. There are a lot of nontrivial fluid mechanics that go into figuring out how thing like polymer solutions and colloidal materials work, not to mention the extremely applied problem of how to get oil out of the ground. Have a look at the Garreth McKinley group at MIT Mechanical Engineering, they do a lot of experimental and theoretical work on complex fluids, things like reducing the drag on ships by dumping polymer solution into the water in front of them, identifying turbulence transitions in non-Newtonian fluids, etc.
 
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klotza said:
Complex fluids is (are?) an area of physics research that is slowly morphing into the engineering domain. Sometimes this is known as rheology, but the study of complex fluids is a bit broader. There are a lot of nontrivial fluid mechanics that go into figuring out how thing like polymer solutions and colloidal materials work, not to mention the extremely applied problem of how to get oil out of the ground. Have a look at the Garreth McKinley group at MIT Mechanical Engineering, they do a lot of experimental and theoretical work on complex fluids, things like reducing the drag on ships by dumping polymer solution into the water in front of them, identifying turbulence transitions in non-Newtonian fluids, etc.

Hi Klotza,
Thanks a lot for your insight!
 
gmax137 said:
Probably the same specializations most demanded today (in no particular order):
materials
mechanism design
structural design
thermodynamics
fluid dynamics
etc.

Hi gmax137,

Thank you for your reply. Do you maybe have an idea of which areas within mechanism design or structural design will be most demanded and which areas would rather be automated?
(I expect that a big portion of structural and mechanism design could be automated with for example topology optimization algorithms)
 
"Most demanded" is really a market question about the future, so I won't claim to have any special insight.

Biomechanics has been growing steadily over the past few decades, and the subfield of injury biomechanics even moreso.
 
I think the creative parts of the process will be most demanded. Automated tools will probably become more and more used but you can't hand a blank sheet of paper to the computer and ask it to start designing.
 
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