IG. A10 IAP 2004 Schedule Week Monda Wednesday friday LI-Introduction Lecture L2- Hand sketching L3-CAD modeling (de Weck) (Wallace) ( Kim, de Weck) Hands-on Tour Design studio Sketch Initial design Make a 2-D CAD model activities Machine shop (Solidworks)Nadir Testing area L4-Introduction to CAE L5-Introduction to CAM L6-Guest Lecture I (Bowkett Lecture (K Rapid prototyping Hands-on FEM Analysis(Cosmos) Water Jet Intro machine shop Make part version 1 activities Omax (Weiner, Nadir) Martin luther king jr Lecture L7-Structural Testing L8-Design optimization(Kim) Holiday-no class (Kim, de Weck Hands-on Test part ver. I(Kane Introduction to Structural activities Optimization Programs Lecture L9-Guest Lecture 2(Sobieski) Multidisciplinary Optimization Hands-on Carry out design optimization Manufacture part ver. 2 Final Review(de Weck, Kim) MWF1-4pm(always meet at 1pm) Last Lecture of lAP: January 30, 2004 16.810(16.682) Massachusetts Institute of Technology
IAP 2004 Schedule 1 Lecture Week L1 – Introduction (de Weck) Monday L2 – Hand Sketching (Wallace) Wednesday L3 – CAD modeling ( Kim, de Weck) Friday Hands-on activities Tour - Design studio - Machine shop - Testing area Sketch Initial design Make a 2-D CAD model (Solidworks) Nadir 2 Lecture Hands-on L4 – Introduction to CAE (Kim) FEM Analysis (Cosmos) L5 – Introduction to CAM (Kim) Water Jet Intro machine shop L6 – Guest Lecture 1 (Bowkett) Rapid Prototyping Make part version 1 3 Lecture activities Hands-on Martin Luther King Jr. Holiday – no class L7 – Structural Testing (Kim, de Weck) Omax (Weiner, Nadir) Test part ver. 1 (Kane) L8 – Design optimization (Kim) Introduction to Structural 4 Lecture activities Hands-on activities Carry out design optimization Manufacture part ver. 2 Test part ver. 2 L9 – Guest Lecture 2 (Sobieski) Multidisciplinary Optimization Optimization Programs Final Review (de Weck, Kim) MWF1-4pm (always meet at 1pm) Last Lecture of IAP: January 30, 2004 16.810 (16.682) 16
IGAln Learning Objectives At the end of this class you should be able to (1) Carry out a systematic design process from conception through design/implementation/verification of a single structural component (2 Quantify the predictive accuracy of CAE versus actual test results (3 Explain the relative improvement that computer optimization can yield relative to an initial, manual solution (4) Discuss the complementary capabilities and limitations of the human mind and the digital computer synthesis versus analysis 16.810(16.682) Massachusetts Institute of Technology
Learning Objectives At the end of this class you should be able to … (1) Carry out a systematic design process from conception through design/implementation/verification of a single structural component. (2) Quantify the predictive accuracy of CAE versus actual test results. (3) Explain the relative improvement that computer optimization can yield relative to an initial, manual solution. (4) Discuss the complementary capabilities and limitations of the human mind and the digital computer (synthesis versus analysis). 16.810 (16.682) 17