Revitalizing US Manufacturing to Capitalize on Innovation Manufacturing today and in the future: Perspectives: Industry, government, academia Business, policy and economics, and educational programs required. Summit themes: Changing the perception about manufacturing in the US The needs for education for young professionals interested in careers in manufacturing.
Revitalizing US Manufacturing to Capitalize on Innovation Proposed Summit Outcome: Outline and draft for a whitepaper and proposal for funding in education for professional degrees in manufacturing. A call-to-action : describe industry needs, and the opportunity for industry and university partnerships. National institutionalization of “MEng In Manufacturing”-like programs?
Public Perception of Manufacturing The Manufacturing Institute and Deloitte: U.S. public greatly supports the manufacturing industry and would choose to have a manufacturing plant open in their region over other types of employers. However, the public is unwilling to encourage their children pursue careers in manufacturing and believes the government has not enacted policies supportive of the manufacturing sector. http://www.themanufacturinginstitute.org/Research/Public-Perception-of-Manufacturing/2011-Public-Perception-Report/2011-Public-Perception-Report.aspx
Need for education for young professionals interested in careers in manufacturing “We can’t find manufacturing managers in the US” - Chris Jorgensen, Global Lean/SPS - Siemens Wind Power http://video.cnbc.com/gallery/?video=3000015820 Skills Gap in US Manufacturing
Master of Engineering in Manufacturing Program Brian W. Anthony, PhD Director
Admissions Admissions B.S. In Mechanical, Electrical, Chemical … MIT Admission Demonstrated interest in and commitment to the art and science of manufacturing. Every admitted student receives a personal interview.
M. Eng. in Manufacturing “The Master of Engineering in Manufacturing is a twelve-month professional degree in Mechanical Engineering that is intended to prepare the student to assume a role of technical leadership in the manufacturing industries. The degree is aimed at practitioners who will use this knowledge to become leaders in existing as well as emerging manufacturing companies”
Goals Create Technical Leaders for Global Emerging Industries Create Engineers with a “Systems” view Give a Strong Base for working in any Industry Emphasize Math and Science Based Methods for Analysis, Design and Operation of Manufacturing Enterprises Create an Understanding of the Global Manufacturing Strategies
MengM Curriculum Elements Manufacturing Physics Processes, Machines, Assembly, Process Control Manufacturing Systems Factory Design and Control Supply Chain Design and Control Design and Manufacturing Design for Manufacturing Product Development Process Management and Global Manufacturing Management for Engineers Seminar in Global Manufacturing Group Projects in Industry Group Project Individual Work Team Work Mfg. Physics Mfg. Systems Prod. Design Business
Cohort Course Schedule Fall IAP Spring Summer 2.810 Mfg. Processes and Systems Launch Group Project 2.830J Manufacturing Process Control Full Time at Group Project Site 2.854 Intro. to Manufacturing. Systems MIT: IAP Activities ESD.269J Supply Chain Planning & Design Complete Thesis 2.875 Mechanical Assemblies: Their Design and Manufacture Design Elective (2.739J for Dual Degree Students) 2.961 Management for Engineers 2.888 Pro-Seminar Global Mfg. and Entrepreneurship Select Group Project Group Project – Part time @ site
Group Projects Based in a Company Teams of 3-4 Students Solve Problem of Value to Company and Pedagogically Aligned with the Degree Typical Projects: New Process Development, Quality Improvement Projects, Factory System Improvement, Supply Chain Analysis and Design
Group Projects Typical Industries…
Group Project Schedule Fall Project Identification by Companies Presentations to Students Selection of Teams and Projects January Begin Project with ~ 2-3 week attachment February - May Part time at company May - August Full Time Attachment
Example Projects Implementation of RFID for Parts Tracking in a Equipment Manufacturing Factory Robust Product – Process Design for a Diagnostic Microfluidic Device Process Improvement in a High Volume Packaging Material Manufacturing Plant Process Improvement for Manufacturing ofHigh Lift Oil Well Pumps Process Improvement for Manufacture of Deep Well Instrumentation Systems Development of a Logistics Resource Allocation System Supply Chain Planning of Global Electronics Manufacturer for Short Life Cycle Products Analysis, Scheduling and Planning in Wafer Fabrication Systems Analysis, Appraisal and Improvement on Airbag Sensor Assembly Line Improvement Study on Internal Supply Chain in Offshore Industry Optimization of Cleaning Process for Castings
Investigate architectural design-related issues for a wash cycle 2011 Industry Project: Wash Cycle Improvement in High Performance Circuit Board Project Objectives Identify root causes of flux residue presence underneath circuit components Investigate architectural design-related issues for a wash cycle Investigate alternative washing methods/ Optimize current process Implement alternative solutions including qualification and process control Team: Pranav Jain, Ishan Mukherjee, Nikith Rajendran Advisor: Jung-Hoon Chun Expected Benefits Residue-free circuit boards with no quality defects Quality work on PCB cleaning theory and methods
2011 Industry Project: Quality Improvements for a Diagnostic Fluidic Device Team: Linda Donoghue, Jackie Holmes, Kasra Namvari Advisor: Brian Anthony Project Objectives Identify opportunities for quality control improvement, focusing on the single-use cartridge Further understanding of physical processes and ability to predict expected behavior Expected Benefits Enhanced test performance Improving manufacturability for clinical trial production and future full scale manufacturing
2011 Industry Project: Improved Back-End Processing for Polymer Solar Cells Team: Gregorio Colaci, Jason Chow, Ming Gong, Susheel Gogineni Advisor: David E. Hardt Project Objectives Modeling the manufacturing system for material resource planning and yield tracking Develop WIP documentation, inventory tracking system and time study Provide a feedback system for each manufacturing process Identity the bottleneck process and improve yield and reliability/ Expected Benefits Increased profitability through improved system yield and throughput Increased customer service level through accurate production scheduling Konarka Power Plastic®
The uniform ribbon beam vertically scanning a wafer 2011 Industry Project: Reduce the cycle time in Ion Implanter Manufacturing Team: Gregorio Colaci, Jason Chow, Ming Gong, Susheel Gogineni Advisor: David E. Hardt Project Objectives Respond to increasing demand without monumental capital investments Reduce build cycle time using (Value Stream Mapping) Identify waste through observations and line balancing analysis Implement changes and verify effectiveness of measures Expected Benefits Eliminate non-value added activities making the process lean and efficient Reduced WIP inventory and have greater inventory turnover Have a decision support system based on analytics The uniform ribbon beam vertically scanning a wafer
History First MIT Class Graduated in 2006 Class Size Varies from 15-25 each year All Students Find Relevant Employment Move Quickly and Easily into Manufacturing Operations and Engineering Roles
Alumni Feedback “This degree not only gave me the “hard skills” like, Statistic Quality Control, Accounting and supply chain knowledge, and design for customer needs, it also taught “soft skills” such as how to be fast leaner, how to adapt to new environment, working in teams, and insight into entrepreneurship.” Diao Zongjie Product Engineer Avago Technologies (Formerly Agilent) The MEng helped me gain a whole new perspective towards manufacturing and industry. I must say, I have been able to apply whatever I learnt at MIT in a period of 9 months-from manufacturing and quality principles to supply chain… Ambika Goel Design and Development Engineer Accellent Manufacturing The experience has equipped me with understanding of a new generation of business, grounded in engineering science knowledge, and has also taught me valuable life skills in communication and teamwork. Kek Sei Wee, founder Achilles Consulting
Need for education for young professionals interested in careers in manufacturing “We can’t find manufacturing managers in the US” - Chris Jorgensen, Global Lean/SPS - Siemens Wind Power http://video.cnbc.com/gallery/?video=3000015820 Skills Gap in US Manufacturing
The skills gap in U.S. manufacturing
The skills gap in U.S. manufacturing http://www.themanufacturinginstitute.org/Research/Skills-Gap-in-Manufacturing/2011-Skills-Gap-Report/Selected-Charts/Selected-Charts.aspx
The skills gap in U.S. manufacturing http://www.themanufacturinginstitute.org/Research/Skills-Gap-in-Manufacturing/2011-Skills-Gap-Report/Selected-Charts/Selected-Charts.aspx
The skills gap in U.S. manufacturing Describe the availability of qualified workers for the following workforce segments at your company today, and indicate if you anticipate the shortage to increase, decrease, or not change over the next 3-5 years
The skills gap in U.S. manufacturing Describe the availability of qualified workers for the following workforce segments at your company today, and indicate if you anticipate the shortage to increase, decrease, or not change over the next 3-5 years
Need for talent
WORKING WITH INDUSTRY TO ADDRESS NEEDS MEngM, WORKING WITH INDUSTRY TO ADDRESS NEEDS
MEngM Industry Connections MEngM Program Industry Recruitment, Networking Industry Seminars Industry Based Group Projects Seminars MEngM – Professional Degree Industry Based Projects Recruiting Initiatives and Fellowship Programs Fellowships Young Engineer Employment / Education Package Career Fairs Executive Courses Research
MEngM Industry Connections - build and maintain points of collaboration - help companies recruit our students and alumni - facilitate connections to faculty and researchers - small and elite group of companies - keep industry engaged with and informed about education and research activities
Industry in the MEngM academic process Necessary to correctly interpret the fundamentals in practice. Allows manufacturers to understand what educators can and cannot do. Educators care about industry needs, keep up with changes while offering a solid fundamental education. Education process must be maintained, as well as effort directed toward new topics, technologies, and approaches. Like industry, there is a process of continuous improvement.