Mechanical engineering

Micrographs showing water droplets landing on specially designed silicon surfaces (top images) at different temperatures. At higher temperatures, the droplets begin to exhibit a new behavior: instead of boiling, they bounce on a layer of vapor, never really wetting and cooling the surface. At 400 C, the droplet continues to boil only on the surface that combines microscale posts with a coating of ...

Cooling when there’s too much heat

MIT researchers make surfaces that are easier to cool under extreme heat; finding could benefit power plants, electronics.

November 11, 2013

Stephen H. Crandall, professor emeritus in MechE, dies at 92

Crandall remembered for his pioneering work in the field of solid mechanics and random vibrations.

November 8, 2013

A new cocktail novelty is inspired by certain water bugs that release chemicals to propel them across water.

Cocktail novelties inspired by nature’s designs

Mechanisms behind water bugs and lilies applied to culinary devices.

November 6, 2013

Emeritus: David Wilson was an early proponent of the concept of energy-use fees

System he hatched in the 1970s for curbing carbon emissions is finally getting some traction.

November 5, 2013

PhD student recognized by International Desalination Association

Ronan K. McGovern SM '12 receives Best Presentation Award at World Congress on Desalination and Water Reuse

October 25, 2013

A front and side view of a volunteer wearing the Anklebot in a seated posture. During experiments, the robot moved the ankle and recorded its stiffness in multiple directions.

‘Anklebot’ helps determine ankle stiffness

Data could aid in rehabilitation from strokes, other motor disorders.

October 24, 2013

Students prepare for real-world product development through hands-on collaboration

October 22, 2013

A new microfluidic technique developed by MIT researchers to quickly sort bacteria within the same strain could improve monitoring of cystic fibrosis and other diseases.

Separating the good from the bad in bacteria

New microfluidic technique quickly distinguishes bacteria within the same strain; could improve monitoring of cystic fibrosis and other diseases.

October 16, 2013

Nostromo is one of the autonomous kayaks of mission TULiP.

Mission TULiP: A robotic pursuit on the Charles River

The quest to build fast, cooperating robots that can explore the ocean's dynamic features is happening on the Charles River.

October 7, 2013

Images such as this, showing droplets being shed from a superhydrophobic surface (light band at center), revealed the charging of the droplets.

Droplets get a charge out of jumping

Condensation on a metal plate leads to formation of droplets that carry electric charge, could improve power-plant efficiency.

October 2, 2013

Under the sea

MIT senior Grace Young’s love of marine robotics will lead her to spend up to a month underwater this semester, collecting data and teaching classes over Skype to help save the oceans.

October 2, 2013

2.03x Dynamics aims to improve learning on and off campus

New MITx course brings a classic MIT undergraduate experience into the age of digital learning.

October 1, 2013

On typical hydrophobic coatings, droplets forming from high-temperature steam soon spread out to coat the surface, quickly degrading their performance. The new coating, seen here, maintains its ability to foster droplet formation over long periods.

Water-shedding surfaces can be made to last

New approach to hydrophobic material could benefit power plants, cooling systems.

September 20, 2013

A tumor cell (green) pushes halfway through a blood vessel (red).

Watching tumors burst through a blood vessel

A microfluidic platform provides a high-resolution view of a crucial step in cancer metastasis.

September 20, 2013

MechE announces three new appointments

September 19, 2013

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