The Master of Engineering in Advanced Manufacturing and Design (MEng) degree from MIT’s Department of Mechanical Engineering prepares you for leadership positions in the multidisciplinary profession of manufacturing and gives you the tools to grow in this dynamic field. Learn more at manufacturing.mit.edu/

MIT alumni share about their experience and the value of the Master of Engineering in Advanced Manufacturing and Design (MEng) degree.

Learn the principles of manufacturing: process control, production flow, supply chain and basic finance, from the world’s #1 ranked Mechanical Engineering department.

Develop the fundamental skills needed for global excellence in manufacturing and competitiveness with the Principles of Manufacturing MicroMasters Credential, designed and delivered by MIT’s #1-world ranked Mechanical Engineering department.

This program provides students with a fundamental basis for understanding and controlling rate, quality and cost in a manufacturing enterprise.

The Principles of Manufacturing are a set of elements common to all manufacturing industries that revolve around the concepts of flow and variations. These principles have emerged from working closely with manufacturing industries at both the research and operational levels.

Targeted towards graduate-level engineers, product designers, and technology developers with an interest in a career in advanced manufacturing, the program will help learners understand and apply these principles to product and process design, factory and supply chain design, and factory operations.

This curriculum focusses on the analysis, characterization and control of flow and variation at different levels of the enterprise through the following subject areas:

Unit Process Variation and Control: Modeling and controlling temporal and spatial variation in unit processes
Factory Level System Variation and Control: Modeling and controlling flows in manufacturing systems with stochastic elements and inputs.
Supply Chain – System Variation and Control: How to operate and design optimal manufacturing-centered supply chains.
Business Flows: Understanding the uses and flow of business information to start up, scale up and operate a manufacturing facility.

From 2.008x on edX, by Prof. John Hart from MIT
edx.org/course/fundamentals-manufacturing-processes-mitx-2-008x-0

00:00:00 - Introduction to Additive Manufacturing (AM)
00:10:46 - Importance and Implications of AM
00:28:34 - Overview of AM Processes
00:40:08 - Extrusion (FFF, FDM)
00:59:19 - Photopolymerization (SLA, DLP)
01:12:17 - Powder Bed Fusion (SLM, SLS)
01:33:18 - Emerging Process Technologies

Lecture 1: Introduction -- processes and variation framework
Instructor: Duane Boning, David Hardt
View the complete course at: ocw.mit.edu/2-830JS08

License: Creative Commons BY-NC-SA
More information at ocw.mit.edu/terms
More courses at ocw.mit.edu

Jose Pacheco, Co-Director Advanced Manufacturing Design at MIT was interviewed LIVE on the Traders Network Show, hosted by Matt Bird, at the 2019 Humanity 2.0 Forum at the Vatican in Rome, Italy.

To inquire about being a guest on this show or others:
Matt Bird
CommPro Worldwide
C: +1 (646) 401-4499
E: [email protected]
W: commpro.com

Follow us on social media for exclusive behind the scenes footage and updates on upcoming events:

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Join leading MIT faculty and industry experts in addressing the applications and implications of the full spectrum of AM technologies.

For more info on MIT xPRO's online additive manufacturing course, please visit learn-xpro.mit.edu/additive-manufacturing

MIT Associate Professor of Materials Science & Engineering Krystyn Van Vliet discusses disruptive materials innovation in the context of the Advanced Manufacturing Partnership (AMP) 2.0.

Stephan Biller, Chief Manufacturing Scientist, GE will share GE's vision of the 21st century manufacturing paradigm, a digital thread that marries virtual tools with physical tools.

Facebook: facebook.com/technologyreview/
Twitter: twitter.com/techreview

Jose Pacheco, Co-Director Advanced Manufacturing Design at MIT was interviewed LIVE on the Traders Network Show, hosted by Matt Bird, at the Humanity 2.0 Forum at the Vatican in Rome, Italy.

To inquire about being a guest on this show or others:
Matt Bird
CommPro Worldwide
C: +1 (646) 401-4499
E: [email protected]
W: commpro.com

Learn more about AMDT at cccneb.edu/amdt

Skylar Tibbits, Director, MIT Self-Assembly Lab, on 4-D printing and imaging things that make themselves.

This video is adapted for the EDU course English for the industry 4.0

Learn more about the program here: bit.ly/2NStSxX

This is a 60-minute webinar recording to learn more about the upcoming Smart Manufacturing (Online) Program, followed by a Q&A session.

What exactly is additive manufacturing? MIT Professor John Hart explains the difference between additive manufacturing and 3D printing, as well as how and why AM is used across the product lifecycle.

This video is an excerpt from MIT xPRO's online additive manufacturing course, "Additive Manufacturing for Innovative Design and Production." To learn more about the course or enroll in the next session, visit learn-xpro.mit.edu/additive-manufacturing

An amazing list of keynotes, plenary sessions, and workshops at Cambridge University's 12th Technology Ventures Conference (TVC) on "FUTURE RESOURCE ABUNDANCE". We talk about how technology entrepreneurship can lead to a sustainable future with global welfare.

Materials & Manufacturing Panel:
Materials are the building blocks used to create all the technology around us. To maintain our addiction to create, we need advanced materials and innovative manufacturing techniques that substitute scarce materials and prevent resource waste. Jose J. Pacheco, Chris Twinn, and Guillaume Baxter will suggest a realm of technologies that can make that happen, including 3D printing, genetic engineering, renewable chemistry, and sustainable architecture.

MIT STS.081 Innovation Systems for Science, Technology, Energy, Manufacturing, and Health, Spring 2017
Instructor: William B. Bonvillian
View the complete course: ocw.mit.edu/STS-081S17
YouTube Playlist: youtube.com/playlist?list=PLUl4u3cNGP61GOiMKYgTzHpf8x6iiblaV

Class 4 will first explore a noted Samuelson article on free trade theory and comparative advantage. It will review advanced US manufacturing capability concerns in detail and emerging manufacturing innovation models in China.

License: Creative Commons BY-NC-SA
More information at ocw.mit.edu/terms
More courses at ocw.mit.edu

Jen designs automation for final assembly. Working with the Product Design teams, she visits China for hands-on engineering experimentation to find the balance between the best possible product and the best possible way to manufacture it. Jen has the freedom to explore ideas and use her imagination all day.

Learn more: apple.com/jobs/uk/teams/operations-and-supply-chain.html