Undergraduate - UnitENG1050 - Engineering materials

This unit entry is for students who completed this unit in 2014 only. For students planning to study the unit, please refer to the unit indexes in the the current edition of the Handbook. If you have any queries contact the managing faculty for your course or area of study.

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6 points, SCA Band 2, 0.125 EFTSL

Refer to the specific census and withdrawal dates for the semester(s) in which this unit is offered, or view unit timetables.

Level	Undergraduate
Faculty	Faculty of Engineering
Offered	Clayton First semester 2014 (Day) Malaysia First semester 2014 (Day) Clayton Second semester 2014 (Day) Malaysia Second semester 2014 (Day)
Coordinator(s)	Assoc Professor J S Forsythe (Clayton); Sem 1: Dr Varghese Swamy, Sem 2: Dr Pooria Pasbakhsh (Malaysia)

Synopsis

Key concepts in the design, selection and application of materials. Attributes such as stiffness (modulus), strength, toughness, chemical stability, electrical, magnetic, and thermal properties will be explained in terms of atomic bonding, crystal defects, polycrystalline microstructure and material flaws. Case studies will include a broad range of materials such as carbon nano tubes, microchips, reinforced concrete, biomaterials, suspension bridge, and aerospace components, all used in a diverse range of engineering applications.

Outcomes

On successful completion of this unit students will:

appreciate the influence of atomic structure, bonding and nano/microstructures have on some physical properties
have an understanding of different materials responses to forces and stresses
have an understanding of the basic mechanical properties, principally elastic modulus and yield stress, and be able to use these as design criteria
be familiar with processes occurring during plastic deformation and to draw upon these concepts in order to know how to strengthen the material
know how to tailor the mechanical properties of a polymeric material using control over crystallinity and the glass transition
understand the role of composite materials in engineering, and their responses to applied stresses
understand the processes involved during fracture and have a broad understanding of how fracture can be avoided by appropriate selection of materials and design
have a basic understanding of the thermal, electrical and magnetic properties of materials in terms of the atomic and electronic characteristics of materials and to use these criteria for material selection
understand the processes of corrosion and degradation in the environment and to draw upon these to increase the lifetime through appropriate protection and material selection
be able to select an appropriate material for a given application based on the above points
appreciate the socio-political and sustainability issues influencing material selection, commonly experienced as a professional engineer
have become familiar with the resources of a library for acquiring information of specific interest to a materials engineer
have gained basic laboratory skills applied to study the microstructure and physical properties of materials
have an ability to communicate within a team in carrying out laboratory work
have an ability to keep accurate laboratory records and to prepare a formal report on an experiment

Assessment

Examination (2 hours): 50%
Laboratory work: 20%
Assignments: 10%
Tests: 20%

Chief examiner(s)

Assoc Professor Nick Birbilis

Workload requirements

Three 1-hour lecture/practice classes, one 2-hour laboratory class and 7 hours private study per week

This unit applies to the following area(s) of study

Materials science

Prerequisites

VCE Mathematical methods 3/4 (or equivalent) recommended.

Prohibitions

ENG1501, MSC1010