Mechanical engineering

Scanning electron micrographs (SEMs) of the silicon microstructured surfaces for the boiling experiments. The dimensions of the micropillars are well-defined to allow systematic studies of surface roughness effects on critical heat flux (CHF).

Better surfaces could help dissipate heat

Heat transfer in everything from computer chips to powerplants could be improved through new analysis of surface textures.

June 26, 2012

Sharper ultrasound images could improve diagnostics

New system developed at MIT allows precise measurements and tracking of disease progression.

June 18, 2012

Seen from above, a sheet of silicon has been textured with an array of tiny inverted-pyramid shapes, so small that they correspond to the wavelengths of light and can efficiently trap light waves.

Textured surface may boost power output of thin silicon solar cells

MIT team finds new approach to trapping light efficiently in thin-film silicon solar cells.

June 13, 2012

This electron microscope image shows two layers of nanowires produced through the MIT team's self-assembly process, showing how deviations in the pattern and connections between the layers can be included in the design.

Teaching self-assembling structures a new trick

MIT researchers produce 3-D configurations that could lead to new microchips and other devices.

June 7, 2012

Ketchup slides out of a bottle that has the food-based, nontoxic LiquiGlide coating on the inside.

Mechanical engineering’s condiment-bottle coating gives waste the slip

MIT $100K competition runner-up LiquiGlide developed out of Varanasi group

May 30, 2012

Engineers at the Addis Ababa Institute of Technology in Ethiopia conduct tests on a CoolComply prototype.

In the World: MIT-designed cooler preserves tuberculosis drugs, records doses

A simple cooler could help patients battle antibiotic-resistant tuberculosis.

May 30, 2012

Proteins (actin, red and vinculin, green) inside adult bone marrow-derived stem cells that were grown in the lab for three days, with (top image) and without (bottom) the 'crowder' particles. Cells grown with the crowders form neatly aligned structures, or matrices, outside the cell, which in turn align their internal actin networks; the structures both outside and inside the cells grown without t...

Crowding causes cells to produce an orderly matrix of molecules

Making proteins stand in line could lead to more lifelike lab tests.

May 24, 2012

MIT-engineered device injects drug without needles, delivering a high-velocity jet of liquid that breaches the skin at the speed of sound.

Device may inject a variety of drugs without using needles

Jet-injected drugs could improve patient compliance, reduce accidental needle sticks.

May 24, 2012

Members of the Ghoneim lab, from left to right, Anton Hunt, Ahmed Ghoniem, Patrick Kirchen and James Hong.

Oxygen-separation membranes could aid in CO2 reduction

Ceramic membranes may reduce carbon dioxide emissions from gas and coal-fired powerplants.

May 21, 2012

Course 2.00b (Toy Product Design) students participate in the PLAYsentations on May 15.

Department of Mechanical Engineering's Toy Lab 'PLAYsents' student-built prototypes

In 2.00b, students focus on their inner child.

May 17, 2012

Karan Mudgal, of RISD, describes the features of the bicycle lock that he and his team designed.

From left to right: Kai Liao (Aeronautics and Astronautics), Tejas Inamdar (mechanical engineering), Cullen Johnson (LGO), Karan Mudgal (RISD), David Linders (LGO)

Entrepreneurial students dive into product design and development

Joint MIT-RISD course yields concepts from iPad-friendly backpacks to waste-free sugar.

May 14, 2012

A student in 2.007 makes last-minute adjustments to her robot.

Whirr, click, hum: Robots go at it in 2.007 finale

Competition concludes mechanical design class, unleashing a wide variety of spinning, pumping and striking robots.

May 11, 2012

David Wallace, left, with Woodie Flowers.

Woodie Flowers, a pioneer of hands-on engineering education

Flowers and his former student, David Wallace, have created a fun, teamwork-based approach to learning the art of mechanical design.

May 7, 2012

New technique predictably generates complex, wavy shapes

May help improve drug delivery and explain natural patterns from brain folds to bell peppers.

May 3, 2012

Through a process involving thin layers of material deposited on a surface and then selectively etched away, the MIT team produced a surface covered with tiny cones, each five times taller than their width. This pattern prevents reflections, while at the same time repelling water from the surface.

Through a glass, clearly

MIT researchers find a way to make glass that’s anti-fogging, self-cleaning and free of glare.

April 26, 2012

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