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Performance of metallic, ceramic, polymeric, composite and electronic materials in a wide variety applications. The influence of materials processing on properties. Mechanical properties and strengthening. Solidification processing of metals and plastics. Corrosion. Application of the Granta CES Materials Selector software package to explore materials properties and select suitable materials for given design applications.
Students will be able to understand the effect of typical manufacturing processes on the properties of the processed materials and the physical designs that can be achieved through the use of each process.Students will gain an understanding of waste streams in material processing and how waste generation can be minimised through valued added designStudents will be familiar with typical deterioration processes for all material classes and how they can be avoided and/or integrated in a design processStudents will develop a working understanding fracture mechanism and the concept of fracture toughnessStudents will be able to select and derive a material index suited for given engineering constraints (strength-, stiffness- or fracture limited design) and use Ashby material charts for the selection of optimal materialStudents will be introduced to the CES Material Selector and its features and will learn how to use the software in a material selection for process for a given designStudents will learn to recognise and identify which production processes lie behind the creation of products and how these processes can be exploited as creative inspirations for their own future design projects.
Students must attend one activity from each section.
Hossein Najaf Zadeh
Barro De Gast
Final exam: 32 %, The final exam will encompass the content covered in both term 1 and 2 lectures.Design assignment, 30% in total:Design report and poster: Students will be asked to research their waste material as a raw material for the design of a new product. Ideation, and concept design. Details must be given on the supply chain, ideated concepts and a manufacturing plan for the model/prototype of a final design. Due at the end of term 1. The due date can be found in the assignment brief (15 %)Final design presentation: Students will be asked to present their final model/prototype (hand in their prototype and submit a short video of their design process (15%) due at the end of term 2.Workshop assessments; 15 % in total:There will be an online workshop quiz for selected workshops through Learn.The quizzes are only for labs in weeks 3-6 and week 8 (3%). The time/date will be announced. Attendance at all other lab sessions is mandatory; unexcused non-attendance will result in a 3% deduction.PC lab assessments; 23% in total:• Term 1 computer labs: Product research due by the end of each individual lab session, 3 submissions in term 1, 4 % each. In total 12%.• Term 2 computer labs (Granta): total 11%:o Lab 1, 2: Exercises 1 % each,o Lab 3: Eco Audit tool report 4% o Lab 4: Case studies 5%
Ashby, M. F. , Johnson, Kara;
Materials and design : the art and science of material selection in product design
Ashby, M. F. , Shercliff, Hugh., Cebon, David;
Materials : engineering, science, processing and design
2nd ed., North American ed;
Callister, William D. , Rethwisch, David G;
Materials science and engineering : an introduction
9th edition ;
John Wiley and Sons, Inc., 2014.
Muralisrinivasan, Natamai Subramanian;
Basics of polymers : fabrication and processing technology
Momentum Press, 2015.
Materials enabled designs : the materials engineering perspective to product design and manufacturing
Elsevier/Butterworth Heinemann, 2009.
Rosato, Donald V. , Rosato, Marlene G., Schott, Nick R;
Plastics technology handbook
Momentum Press, 2010.
The prerequisite for this course is PROD111 and either PHYS111 or PHYS101
Domestic fee $1,059.00
International fee $6,000.00
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see
School of Product Design