3-D printing

MIT researchers have 3-D printed a novel microfluidic device that simulates cancer treatments on biopsied tumor tissue — and keeps the tissue alive for days — so clinicians can better examine how individual patients will respond to different therapeutics.

To guide cancer therapy, device quickly tests drugs on tumor tissue

Inexpensive 3-D-printed microfluidics device could be used to personalize cancer treatment.

December 12, 2018

Associate Professor A. John Hart (right), doctoral student Adam Stevens SM ’15, and their colleagues have designed a 3-D printer that can deposit material 10 times faster than today’s desktop models can. The team has also developed a novel process for 3-D printing using cellulose, a widely available natural polymer.

Accelerating 3-D printing

Researchers have designed a novel printhead that works with unprecedented speed and pioneered ways to melt and extrude renewable materials.

November 29, 2018

The RePaint system reproduces paintings by combining two approaches called color-contoning and halftoning, as well as a deep learning model focused on determining how to stack 10 different inks to recreate the specific shades of color.

Reproducing paintings that make an impression

CSAIL's new RePaint system aims to faithfully recreate your favorite paintings using deep learning and 3-D printing.

November 29, 2018

people smiling and talking in front of scientific posters

Collaborating for MIT’s Future poster session offers community insights and inspiration

For the fifth year, the poster session brought together colleagues from across MIT to learn about new projects and partnerships.

November 2, 2018

Desktop Metal's Studio System is designed to make the production of metal parts an office-friendly experience.

Startup uses 3-D printing to reinvent the production of metal parts

With an MIT alumnus and four professors among its co-founders, Desktop Metal is pushing the boundaries of metal 3-D printing.

October 5, 2018

As the additive manufacturing lead at Lincoln Laboratory, Derek Straub works with technical staff to design 3-D-printed parts for various systems and technologies and oversees production on nine industrial machines.

Derek Straub: Shaping the future of additive manufacturing

Lincoln Laboratory's 3-D printing lead has been named to Manufacturing Engineering magazine's 30 Under 30 list.

September 25, 2018

An MIT system uses an algorithm that can take 2-D videos and turn them into 3-D-printed “motion sculptures” that show how a human body moves through space.

Creating 3-D-printed “motion sculptures” from 2-D videos

CSAIL system could help athletes, dancers, and others better analyze how they move.

September 18, 2018

3-D-printed colloidal crystals viewed under a light microscope.

MIT researchers 3-D print colloidal crystals

Technique could be used to scale-up self-assembled materials for use as optical sensors, color displays, and light-guided electronics.

August 30, 2018

Students in the Beaver Works Summer Institute’s Autonomous RACECAR course follow their cars around a racetrack during the program’s final race.

A transformative summer for student engineers

High school students explored engineering and technology at the Beaver Works Summer Institute, ending with robot races and demonstrations.

August 13, 2018

Mohan Hathi of Team Exoskeleton poses with the exo-hand built in the Engineering Design Workshop.

High school students learn to build big ideas

Visiting students learn what it takes to be an engineer — and a bit more about themselves — at the Edgerton Center’s annual Engineering Design Workshop.

August 13, 2018

From left to right: Yoonho Kim, Xuanhe Zhao, Hyunwoo Yuk

Magnetic 3-D-printed structures crawl, roll, jump, and play catch

New printing technique could be used to develop remotely controlled biomedical devices.

June 13, 2018

Researchers from MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL) and the Senseable City Lab have designed a fleet of autonomous boats that offer high maneuverability and precise control.

Fleet of autonomous boats could service some cities, reducing road traffic

Researchers design 3-D-printed, driverless boats that can provide transport and self-assemble into other floating structures.

May 23, 2018

Students get hands-on at Maker Break, the first annual celebration of making at MIT.

Maker Break: A celebration of making at MIT

Over 700 students and makers joined in the first annual participatory showcase of fabrication and crafts around the Institute.

May 4, 2018

A new online course from MIT and Boeing uses a 3-D-printed kit to enrich the learning experience. Similar to a textbook, the kit is used as a reference throughout the course. The kit has metal and polymer parts made by industry-relevant 3-D-printing processes, including stereolithography, multi-jet fusion, and direct metal laser sintering. The parts interlock to form a model of MIT's iconic Buildi...

MIT-Boeing educational collaboration aims to scale learning in additive manufacturing

New online course will enable professionals to invent and implement innovative 3-D-printing applications.

April 12, 2018

Ruike Zhao, a postdoc in MIT’s Department of Mechanical Engineering, says kirigami-patterned adhesives may enable a whole swath of products, from everyday medical bandages to wearable and soft electronics.

Paper-folding art inspires better bandages

Cutting kirigami-style slits in stretchy films could make for bandages, heat pads, and wearable electronics that adhere to flexible surfaces.

March 27, 2018

MIT News | Massachusetts Institute of Technology

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