Materials Engineering Project Assignment - Design report and presentation
Project concept -
A leading property developer is considering to build a multi-storey student accommodation for the first year engineering students in Geelong to meet the ongoing demand in engineering education. Design concepts are sought from students to build an exemplary energy efficient structure; you are encouraged to put your ideas forward to make this happen!
Overall design process -
Students shall work in groups to analyse the proposed 5 storey structure, and use their knowledge on materials and mechanics of materials to design some key structural elements. Every student shall design two structural elements, which are predominantly subjected to compression and bending respectively.
Students shall work in specified groups and shall constantly interact and share their knowledge on materials engineering with other members of the group.
- In Geelong and Burwood campus, lecturers will facilitate the design process through brief formal lecture type presentations followed by unstructured discussions during the project studio sessions.
- For cloud students, Bb collaborate sessions, specifically aimed for the project design, will be conducted in due course (by Ryan Mitchell) throughout the trimester to facilitate the design process.
During the unstructured studio sessions, students shall be encouraged to conduct group discussions to present their understanding of the design problem. Students shall present their views on various design aspects through formal or informal presentations during studio sessions.
The overall success of the project design will largely depend on students' active engagement with lecturers during studio sessions (both campus and cloud). Active participation in design discussions with group members as well as with other groups will further enhance the design experience.
Specifics of the design task -
A complete and clear understanding of the problem description is the most important and the very first step in a design task. Every design comes with specific sets of requirements and with a number of design constraints.
The 5-storey residential building shall be constructed as a bare frame structure composed of beams and columns to transfer all acting loads safely to the ground. Every student shall design specified key structural elements of the proposed student accommodation.
At the very stage of the design process, students shall clearly identify their specified structural elements within the given structure and establish a clear understanding of the physical significance of this relative position; this understanding will form the very basis for this design task.
The concept of "tributary areas" shall be used to determine the design actions for the specified columns and beams. Students shall assess loads acting on the structure based on the relevant Australian Standards AS/NZS 1170.0 [5] and AS/NZS 1170.1 [6].
Students can access Australian Standards through Deakin Library. Following steps may be helpful to access the required Australian Standards.
- Log in to Deakin Library
- Click on "Catalogue" 5
- Search for "Australian Standards"
- Click on "Standards Australia Online"
- Search for "AS 1170"
- The following two standards are relevant to your project - AS/NZS 1170.0:2002: Structural design actions - General principles and AS/NZS 1170.1:2002 (R2016): Structural design actions - Permanent, imposed and other actions
Students shall determine the design actions for the specified structural elements, shall conduct relevant research to choose suitable material (or materials) for structural design, and shall propose preliminary designs for those components i.e. columns and beams in an appropriate manner.
Students shall share their analysis and design results with other groups during the unstructured studio sessions; constructive and open discussions are always key to success in design tasks.
Students shall recognise the important role of sustainability issues in the design process. Students shall also be exposed to the concept of design optimisation to make structures more efficient.
Outline of the Design report - The design report should be no more than 5 pages (excluding title page).
1. Title page - On the first page of the submission, every student must include the following items:
- Unit code and unit title
- The title of the assignment with assignment number
- Student name with Student ID and Group number
2. Project brief
In their own words, every student is required to clearly explain the scope of the project highlighting the key tasks that form the very core of this assignment. The structural elements that are assigned to each student must be clearly identified using appropriate sketches and/or notations; physical significance, if any, of this relative location should be clearly highlighted.
3. Design of Column
3.1 Materials used for compression
3.2 Calculation of design load for the specified column
3.3 Proposed column section
4. Design of Beam
4.1 Calculation of design load for the specified beam
4.2 Determination of design bending stress
4.3 Selection of material and type of cross-section
4.4 Transverse shear and its (possible) effect on your design
4.5 Final design for Beam
5. Summary - Concluding remarks as you see appropriate
6. References - All references must be listed and should be appropriately cited in your report; this is an essential part of any technical report.
Video presentation - Following are a few tips for your 3 minute video presentation:
Be clear, concise and to the point with your design approach
Clearly mention the design challenges specific to your given task
Briefly discuss the material options you considered for column design and justify your choice with useful and relevant arguments
Identify the challenges you faced during beam design and how you approached those challenges
Clearly discuss the options you considered during your beam design
Briefly discuss the role of transverse shear on beam design and how it affected your final design.
Any key assumptions that you made during the design process and how this might have affected your final proposal.
DO NOT waste your time in discussing too many numbers or unnecessary technical details.
Attachment:- Assignment Files.rar