ISYE 415: INTRODUCTION TO MANUFACTURING SYSTEMS DESIGN AND ANALYSIS FALL 2013

ISYE 415: INTRODUCTION TO MANUFACTURING SYSTEMS DESIGN AND ANALYSIS FALL 2013 LECTURES TUESDAY, THURSDAY 2:30-3:45 PM ME 1152 LAB 301 MONDAY 12:00-12:50 PM ME 2109 LAB 302 TUESDAY 12:00-12:50 PM ME 2109 LAB 303 WEDNESDAY 12:00-12:50 PM ME 2109 LAB 304 THURSDAY 12:00-12:50 PM ME 2109 Instructor Associate Professor, Department of Industrial and Systems Engineering ME 3258, 1513 University Avenue, Madison, WI-53706 Phone: 608-890-2236; Fax: 608-262-8454 Email: ananth@engr.wisc.edu Office Hours: Fri 12:00-1:00 pm, or by appointment. Teaching Assistants (301, 302, 303, 304) Soham Anand Email: sanand5@wisc.edu Office: ME 3146 Office Hours: 1 pm -2 pm on Tue and Thu Predeep Ravichandran Email: pravichandra@wisc.edu Office: ME 3146 Office Hours: 1 pm -2 pm on Mon and Wed Course Website: Access through Learn@UW Course Description: Introduction to the technologies, processes and systems of modern discrete part manufacturing. Emphasis on development of an understanding of the behavior of integrated systems. Pre-requisites: ISyE 315, 320, 321; or consent of instructor. Course Objectives: This course will provide an introduction to the design and analysis of manufacturing systems. The course will develop students knowledge in three areas: manufacturing processes and computer-integrated manufacturing systems, manufacturing system design and analysis, and modern manufacturing management strategies. Course Textbook (mandatory): Instructor prepared course packet including lecture notes and laboratory manual Evaluation and Grading: Team % Individual % Class Project Lab Project Lab Homework 15 15 5 Review Exercises Lab Homework Midterm 1 Midterm 2 Final Exam 10 5 10 15 25 Total 35 65 1

Rules and Responsibilities: Class meetings and attendance policy: The class meets twice weekly (Tuesdays and Thursdays) in ME 1152 from 2:30 pm to 3:45 pm. Discussion in class will comprise of lecture material and solution of numerical examples to illustrate concepts covered in the lecture. Attendance may be taken in class and could be used in assigning the final course grade. Class discipline: Students are expected to be in class on time. Cell phones, personal computers, and headphones must be turned off during class. The use of calculators to solve the numerical problems discussed will be permitted. Lab meetings and attendance: Lab sessions will be held on Mondays (301), Tuesdays (302), Wednesdays (303), and Thursdays (304). Labs would be held either in ME 2109 or ME 2145. During lab sessions, students will be split into groups. It is important that you attend the lab session you are enrolled in and work with your assigned groups on the various assignments. Attendance at scheduled lab hours is mandatory. If you have constraints, please inform the instructor and the TAs at the earliest. See the lab manual for additional instructions. Lab discipline and safety: The ISyE 415 laboratory activities require hands-on use of computers, automatic machinery, and other manufacturing equipment. There are dangers present from machinery in motion, materials being processed, debris or spills on the floor, and other unanticipated events. To maintain a safe atmosphere, all users have certain responsibilities. Detailed safety instructions are provided in the lab manual. Please familiarize yourself with these instructions. Office hours: Office hours will be maintained by the instructor and the TAs. Students are strongly encouraged to make use of these hours to clarify concepts covered in class when needed. For instructor: Weekly office hour schedules will be posted on the office door and students can make appointments by recording their name on a slot in the posted schedule, or can walk-in as long as others have not signed up for specific slots. For TAs: Students can consult TAs via email or during office hours. The TAs will provide additional details about his office hour sessions. Review Exercises: Review exercises will be issued weekly (roughly) during the semester and would contribute to 10% of the final grade in the course. The goal of these exercises is to help the student review the key concepts covered in class each week and keep pace with the course material. Review exercises can be done individually or in pairs. The specific due dates for these assignments will be mentioned on each review exercise. Most often these exercises would be due at the beginning of class on Tuesdays and will be accepted in paper form only. Any review exercise submitted after the start of the class will be considered late. Late submission would result in loss of letter grades on the particular assignment. Review exercises submitted more than a day late will be assigned an F grade. Class Project and Lab Project: All students will be expected to undertake a team based course project based on the lecture material during the course of the semester. In addition students will carry out a lab project that integrates class and lab materials. The projects provide experience in applying concepts learnt in class in settings that go beyond what is covered in class and will provide experience in independent thinking and group work. Specific instructions regarding project objectives, tasks, deliverables and due dates will be provided. 2

Lab Homework: Graded homework sets will be issued periodically during the lab sessions and would contribute to 10% of the final grade in the course. Homework will comprise of individual and team assignments. The homework handout will clearly specify whether a particular homework needs to be attempted individually or as a team. The specific due dates for these assignments will be mentioned on each homework. Homework will be due at the start of the class on the due date. Any homework submitted after the start of the class will be considered late. Late submission would result in loss of letter grades on the particular homework. Homework submitted more than a week late will be assigned an F grade. Exams: The course will have three exams: two mid-term exams (10% and 15%) and a final exam (25%). Only permitted reference material and computational aids may be used during an exam. Tentative dates for these exams are provided in the course schedule. Additional instructions regarding syllabus and permitted reference materials will be provided before each exam. Exams must be the sole work of the individual student. Collaboration of any kind, such as reading from another s exam, using the answers of another student (in written, verbal or electronic form) is not allowed. Make up exams will be given only if the reason for missing an exam is illness or sudden and grave personal matters and the situation arises in the 24 hour period preceding an exam. When it is known in advance that an exam cannot be taken at the scheduled time, the student must make arrangements to complete the exam prior to the scheduled date and time. Both email and voicemail notice must be given to arrange an advance exam. When advance intimation is not possible, students are required to notify the instructor (using email and voicemail) within 24 hours of the missed date with the expectation that work will be completed within 48 hours of the missed date. Re-evaluation of exams, homework, and assignments: Requests for re-evaluation of exams, homework, or assignments must be submitted in writing immediately after the class in which the homework or exam is handed back to the students for the request to be considered. Exams, homework or assignments submitted for re-evaluation must not be altered from the original work. Academic integrity: Student teacher relationships are built on trust. Students must trust that teachers have made appropriate decisions about the structure and content of the course they teach, and teachers must trust that the assignments that the students turn in are their own. Acts that violate this trust undermine the educational process. The University of Wisconsin-Madison s Academic Policies defines various forms of Academic Dishonesty and you should make yourself familiar with these. Violation of the policies stated above will result in severe academic penalties. Violation of these rules on exams will receive the grade F for the course and are subject to further disciplinary actions from the university. Violations on homework/project will result in a reduction of two letter grades for each infraction and no credit issued for any homework/project in the course. Penalties will be assessed against the person committing the fraudulent action as well as any supporters of the action. In case of questions concerning these policies, clarifications must be sought prior to submission of assignments. Feedback: Students are strongly encouraged to provide feedback regarding various aspects of this course during the course of the semester. While end-of-semester evaluations help influence the quality of the course in future offerings, periodic and timely feedback regarding all aspects of the course including, quality of instruction, lectures, text-book, homework, exams, grading, etc. would help improve the quality of instruction received by students currently taking the course. 3

List of Reference Books (will be placed on course reserve at Wendt Library) 1. Groover M.P, Fundamentals of Modern Manufacturing: Materials, Processes and Systems, Prentice-Hall, 2002 2. Kalpakjian, S. Manufacturing Processes for Engineering Materials, 5th edition. Addison- Wesley Publishing Company, New York, 2003. 3. Hopp W.J and Spearman M.L, Factory Physics :Foundations of Manufacturing Management, Richard D Irwin, 2001 4. Suri, R., Quick Response Manufacturing: A Companywide approach to Reducing Lead Times, Productivity Press, 1998. 5. Womack, J.P., D.T. Jones and D Roos, The Machine that Changed the World, HaperPerennial, 1991. Perspective on Manufacturing in America Other Reference Books Dertouzos, M.L., R.K. Lester, R.M. Solow and the MIT Commission on Industrial Productivity, Made in America: Regaining the Productive Edge, MIT Press, 1989. Hayes, R.H., S.C. Wheelwright and K.B. Clark, Dynamic Manufacturing: Creating the Learning Organization, Free Press, 1988. -- See mainly Chapter 2. Manufacturing Processes Amstead, B.H., Phillip Ostwald, Myron Begeman. Manufacturing Processes, 8th edition. John Wiley and Sons, New York, 1987. Cubberly, William and Ramon Bakerjian (Eds.). Tool and Manufacturing Engineers Handbook, Desk Edition. Society of Manufacturing Engineers, Dearborn, 1989. Riley, F. The Electronics Assembly Handbook, Springer-Verlag, 1988. Manufacturing Cells and Systems Choobineh, F. and R. Suri, Flexible Manufacturing Systems: Current Issues and Models, Industrial Engineering & Management Press, 1986. Luggen, W.W., Flexible Manufacturing Cells and Systems, Prentice-Hall, 1991. Modern Manufacturing Strategies Hammer, M. and J. Champy, Reengineering the Corporation, HarperBusiness 1993. M. Imai, Kaizen, McGraw Hill, 1986. Stalk, G., Jr., and T.M. Hout, Competing Against Time, Free Press, 1992. 4

ISyE 415 - Fall 2013 - - Schedule - Rev.1 Dates may be rescheduled as course progresses Date Day Lecture Topic Assignments 3-Sep T Course Overview, Iron and Steel 5-Sep R Iron and Steel 10-Sep T Rolling of Metals RE-1 Due 12-Sep R Forging of Metals 17-Sep T Extrusion and Drawing of Metals RE-2 Due 19-Sep R Metal Casting Processes 24-Sep T Sheet Metal Forming Processes RE-3 Due 26-Sep R Turning and Hole Making 1-Oct T Milling Processes RE-4 Due 3-Oct R Forming and Shaping Plastics 8-Oct T Mid Term 1, Finishing Operations and Welding Processes 10-Oct R Advanced Machining Operations 15-Oct T IC Fabrication RE-5 Due 17-Oct R Electronics Assembly Class Project Due 22-Oct T Flexible Manufacturing Systems RE-6 Due 24-Oct R Role of Inventory in Manufacturing 29-Oct T Role of Inventory in Manufacturing RE-7 Due 31-Oct R Material Requirements Planning 5-Nov T Material Requirements Planning RE-8 Due 7-Nov R Mid Term 2, Just in Time and Lean Manufacturing 12-Nov T Just in Time and Lean Manufacturing RE-9 Due 14-Nov R Manufacturing System Dynamics 19-Nov T Manufacturing System Dynamics RE-10 Due 21-Nov R Manufacturing System Dynamics 26-Nov T Variability in Manufacturing Systems 28-Nov R Thanksgiving Recess 3-Dec T Variability in Manufacturing Systems RE-11 Due 5-Dec R Batching Policies in Manufacturing Systems 10-Dec T Batching Policies in Manufacturing Systems RE-12 Due 12-Dec R Batching Policies in Manufacturing Systems Exam Week (December 19, 7:45 am) 5

ISyE 415: Team Effort Evaluation Form Team Name: Your Name: Circle the one that applies: Mid Eval Class Project Mid Eval Lab Project Other Please evaluate the contribution of each team member, excluding yourself, using the form below. Cross out the line with your name on it. Evaluate the most recent contributions (since the last evaluation was handed in): Punctuality, Completion of Contribution Contribution Any Other Main Task Assigned Attendance Assigned Work through Ideas through Effort Comments Last Name (0-10) (0-10) (0-10) (0-10) or Feedback Rodgers Cobb Lacy Kuhn Nelson SAMPLE ONLY Actual form will be handed out after teams are made Jones Any other comments: Please evaluate the effectiveness of the following since the last evaluation: Team meetings Very Unproductive Unproductive Indifferent Productive Very Productive List one aspect that is going well that you would like your team to continue to do through the rest of the semester. List one aspect that is NOT going well that you would like your team to improve during the rest of the semester. Use reverse side if you have more comments. 6