Deals with advanced mechanical design topics. It is considered as a continuation of Machine Design, but with an emphasis on the use of integrated design software. The course includes use of finite element and other software, such as ANSYS, SolidWorks, and MATLAB in design. One portion of the course discusses the design process and introduces the design optimization methodology and integrated design optimization software, which will be used for solving unconstrained, constrained, and multi-objective optimal design problems. The course also introduces fundamental concepts of finite element method, including one- and two-dimensional problems, beams and frames, and its application in design. Weekly hours: 3 Lecture hours and 1.5 Practicum/Lab hoursPrerequisite(s): ME 314.3.
Deals with advanced mechanical design topics. It is considered as a continuation of Machine Design, but with an emphasis on the use of integrated design software. The course includes use of finite element and other software, such as ANSYS, SolidWorks, and MATLAB in design. One portion of the course discusses the design process and introduces the design optimization methodology and integrated design optimization software, which will be used for solving unconstrained, constrained, and multi-objective optimal design problems. The course also introduces fundamental concepts of finite element method, including one- and two-dimensional problems, beams and frames, and its application in design. Weekly hours: 3 Lecture hours and 1.5 Practicum/Lab hoursPrerequisite(s): ME 314.3.
