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Techniques for Structural Analysis and Design >> Content Detail



Syllabus



Syllabus



Learning Objectives


16.21 is a junior level course on techniques for structural analysis and design. Special emphasis is given to the learning of modern computational methods used in aerospace structural design. Equal importance is given to the learning of the role of material properties in structural design, failure and longevity. Although the focus of the course is on aerospace structures, the topics covered are relevant to a wide variety of applications in engineering.

16.21 has a specific set of learning objectives which the student should always keep present as the semester progresses. Students graduating from 16.21 will be able to:

  1. Formulate and apply appropriate mathematical and numerical models to predict the state of stress and deformation of one, two and three-dimensional aerospace structures.
  2. Explain the limitations of the models, assess their applicability to realistic configurations and estimate the errors resulting from their application.
  3. Design and conduct a computational analysis of a structural design in collaboration with members of a team.
  4. Apply the concepts learned in the course to assess and explain the possibility of failure in aerospace structural configuration.


Measurable Outcomes


Students graduating from 16.21 will be able to:

  • Apply energy and variational principles for the determination of deflections and internal loads in one-dimensional structural elements.
  • Apply Ritz Method for the approximate calculation of deflections and stresses in one-dimensional structural elements.
  • Explain the principles and implementation of the finite element method in linear static problems.
  • Apply the finite element method in the stress analysis of aerospace structural components.
  • Design a structural component of an aerospace structure with the aid of state of the art finite element techniques. Structural design criteria will account for stiffness, strength, toughness and useful life considerations.


Prerequisites


16.21 has Unified Engineering (16.03-16.04) as a prerequisite. Students taking 16.21 are expected to have the basic structural mechanics background as provided in Unified. However, all the concepts required in the course will be reviewed.



Lectures


There will be three one hour lectures a week. Student attendance is necessary to maximize the learning experience. Lectures will be used for presenting new concepts. Lecture notes will be available for download from the course's Web site. In addition, reading assignments from the course textbook will be given for each lecture. The learning of abstract concepts will be aided with electronic courseware developed especially for this course. This material consists of mathematical software tools written in Mathematica® which provide opportunities to illustrate and exercise the concepts as they are presented in class.



Recitations


Recitations will be primarily used as opportunities to practice problems similar to those found in home assignments and to answer questions that may arise. A second purpose of recitations is to learn the use of the software adopted in the course (mathematical and finite element software).

In the first recitation a Mathematica® Tutorial will be offered. In the second recitation a tutorial on SolidWorks, the solid modeling software used for the project, will be offered. Before the design project is introduced, a tutorial on Cosmos, the finite element software used for the sole purpose of carrying out the stress analyses required in the project, will be offered. Additional help with the software used in the course will be provided upon request. Students are strongly encouraged to gain acquaintance with both pieces of software early on. Mathematica® is heavily used for algebraic manipulation and numerical computation in the assignments, as well as in lectures as a didactical tool. Practice problems on the use of the software will be given in home assignments for training purposes



Active Learning


The following practices of active learning will be implemented in this course:

In class concept questions with the aid of PRS cards (a custom version of the system used in Unified). These are presented during the lecture and intended to provide an immediate assessment of the understanding of the most important concepts by the students. The answers are discussed immediately after.

Muddy cards: this is a well established and successful mechanism of feedback for the instructor which many students are familiar with. Cards are distributed at the beginning of each lecture and the students put down their comments on the lecture: specific points on the material covered in class that was not clearly presented, comments that the student considers as appropriate feedback for the instructor, suggestions that might contribute to the improvement of the lectures. The cards are turned in at the end of the lecture. The instructors will make every effort to respond to the muddy cards at the beginning of the following lecture. Muddy cards are anonymous and an essential feedback mechanism for the instructor. We strongly encourage their use.

Hands on collaborative computing sessions: In these sessions, each student uses a computer terminal to operate a central computer shared by the whole group. A computing problem is presented to the class in advance, e.g. a homework problem, and the solution is developed and implemented during the recitation on the central computer with the active, hands on participation of the students and instructor. A special networking technology (VNC) is utilized that allows the simultaneous action of the input devices (mouse, keyboard) from all the participant clients, as well as the output display on all the participant clients' screens.



Course Work Homework




Reading Assignments


Students are expected to read assigned material from the textbook prior to its discussion in class. The reading assignments are not part of the assessment process, i.e., they do not contribute directly to the grade. They can only affect the grade indirectly through the students' participation in class. Students are strongly encouraged to read the assigned material in order to maximize the learning experience. Reading assignments will be scheduled during the term and announced in class and on the Web site.



Problem Sets and Computer Assignments


A total of approximately ten (10) problem sets and computer assignments will be given on a weekly basis. The due date for submission of assignments is at the beginning of class the Wednesday after the assignment is given. Late submission of assignments is not accepted. A convention for file naming which facilitates the grading task will be given in the first assignment, as well as guidance on the electronic material to be submitted. Students are strongly encouraged to discuss homework problems in groups, since this is expected to help the learning process. However, homework assignments are also used for performance assessment and, therefore, the material that is turned in must represent the student's own understanding of the material.



Team Design Project


Students will participate in an integrative team design project concerning the analysis of a structural component of an aircraft or aerospace system. There will be a final written report and presentation of the Final Design. Students will work on this project in teams of three.



Exams


There will be two exams in this course:

A midterm exam two days before Lecture 19 during lecture time. This exam will last one hour.

A final exam on the date, time and location assigned by the Institute.

Both exams will have an "open book" policy. There are no restrictions in the material students may bring to the exams.

Assessment of student performance

Grades will be assigned according to the following scheme:


ACTIVITIESPERCENTAGES
Assignments Including Team Project40%
Midterm Exam25%
Final Exam30%
Participation5%

Students are strongly encouraged to discuss homework problems with each other, since this is expected to help the learning process. However, homework assignments are also used for performance assessment and, therefore, the material that is turned in must represent the student's own understanding of the material.

Each student's total grade on the project reports will be based on a team grade and on an individual grade. The team grade will be 20% of the project report grade and will be based on the quality of the report as a whole. The individual grade will be 80% of the project report grade and will be based on the individual student's contribution to the team effort. The instructors will assess individual contributions to the team project through their interactions with the teams throughout the semester.

The final letter grades will be assigned according to the Rules and Regulations of the Faculty.


 








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