Materials and Processing (2023)
Materials and Processing is a discipline concerned with understanding the characteristics of materials and the processes used to convert materials into products. It includes biotechnology, environmental technology, materials, process engineering and innovation and technology management. The major in Materials and Processing includes properties and uses of materials, processing of these materials, and designing industrial systems.
To complete a major in Materials and Processing, students must gain 135 points including 105 points above 100 level in Materials and Processing, including at least 45 points above 200 level. It is recommended that students include ENGEN112, ENGEN180, ENGME221, ENGMP211, two other 200 level ENGxx papers (from the list of qualifying Engineering papers), ENGCB321, ENGMP311, and one other 300 level ENGxx paper (from the list of qualifying Engineering papers) in their programme of study.
Note: There will be no new enrolments in the Materials and Processing major (outside of existing guaranteed credit arrangements), Graduate Certificate or Graduate Diploma in 2018, however a new Materials Science subject is available. Students enrolled in Materials and Processing in 2017 or prior should consult the Division of Health, Engineering, Computing and Science for programme advice.
On this page
- Prescriptions for the PGCert(Mat&Proc), PGDip(Mat&Proc), BSc(Hons), MSc, MSc(Res) and MSc(Tech)
- Prescriptions for the MEngPrac
- Prescriptions for the PhD
- 100 Level
- 200 Level
- 300 Level
- 500 Level
- 900 Level
Prescriptions for the PGCert(Mat&Proc), PGDip(Mat&Proc), BSc(Hons), MSc, MSc(Res) and MSc(Tech)
Enrolment in papers towards the BSc(Hons) is only by invitation of the Head of School. To complete a BSc(Hons) in Materials and Processing, students must complete 120 points at 500 level, including at least 60 points from the papers listed for Materials and Processing, of which at least 30 points must be in research (normally ENGEN591).
Students in masters degrees are normally required to take a thesis and a selection of papers. ENGME585 is compulsory for the MSc(Tech).
Candidates for these graduate qualifications should select their papers in consultation with the Head of School.
Prescriptions for the MEngPrac
Students completing a Master of Engineering Practice are required to take a research project and a selection of papers. To complete a MEngPrac in Materials and Processing students must complete 180 points at 500 level, including ENGMP506; 30 points from EXMBM511, EXMBM512, EXMBM513, EXMBM514, EXMBM521, EXMBM522, EXMBM523, EXMBM524, EXMBM532 and EXMBM533, 60 points from ENGCB521, ENGCB523, ENGEN583, ENGEN584, ENGEN585, ENGEN586, ENGEN587, ENGEN588, ENGEV543, ENGEV545, ENGME515, ENGME557, ENGME585 and ENGMP513; as well as 60 points from ENGEN508.
Prescriptions for the PhD
The Doctor of Philosophy is a three year research-based degree in which students undertake a programme of approved and supervised research that leads to a thesis which critically investigates an approved topic of substance and significance, demonstrates expertise in the methods of research and scholarship, displays intellectual independence and makes a substantial original contribution to the subject area concerned, and is of publishable quality.
Code Paper Title Points Occurrence / Location ENGEN110 Engineering Mechanics 15.0 23B (Hamilton), 23B (Tauranga) & 23G (Hamilton) Statics and dynamics of rigid bodies. Application of freebody diagrams and equations of equilibrium to calculate internal and external forces and moments on/in structures and mechanisms. Kinetics and kinematics of particles. Geometric properties of areas. ENGEN112 Materials Science and Engineering 15.0 23A (Hamilton) & 23A (Tauranga) Introduction to engineering materials (metals, ceramics, polymers, composites, semiconductors and biomaterials) and their atomic structure and mechanical properties. Includes; elastic and plastic deformation, fracture mechanisms, failure in service, iron-carbon phase diagram, redox reactions in corrosion, production of polymers, ce... ENGEN180 Foundations of Engineering 15.0 23B (Hamilton) & 23B (Tauranga) Introduction to the engineering design process and computer aided design, fundamental principles of engineering analysis, open ended problem solving, engineering economics and the skills of a successful engineer. Includes a design-build-test experience.
Code Paper Title Points Occurrence / Location ENGCB223 Fluid Mechanics 15.0 23B (Hamilton) This course covers the basic principles of fluid mechanics. Topics include fluid statics, fluid dynamics, Bernoulli and energy equations, momentum analysis of flow structures, flow measurement, dimensional analysis, internal flow in pipes and ducts, external flow over streamlined and bluffed bodies, pump sizing and selection, and a... ENGCB224 Heat and Mass Transfer 15.0 23B (Hamilton) This paper covers the fundamentals of heat and mass transfer analysis, including conduction, heat convection, radiation, molecular diffusion and mass convection. Finned surfaces and heat exchangers are also covered. ENGCB280 Process Engineering Design 1 15.0 23B (Hamilton) This paper covers mass balances around reactors and separation processes used by engineers in process design, CAD tools for process flow diagrams, pipe and instrumentation diagrams, and simple batch and continuous process modelling using software tools. ENGEN270 Engineering and Business 15.0 23B (Hamilton) This paper focuses on empowering students to become “business savvy” and prepared to enter the workplace and solve real-world problems. Topics covered include; team formation, design thinking, Lean Canvas, project management, Agile, risk management, project finance, professional ethics, preparing for the workplace, and business... ENGME221 Engineering Thermodynamics 15.0 23A (Hamilton) This paper covers the fundamental concepts and laws of thermodynamics, including thermodynamics properties of substances, first and second law analysis, power cycles, refrigeration cycles and simple combustion analysis of engines. ENGME280 Design and Manufacturing 1 15.0 23B (Hamilton) The paper focuses on the principles of fundamental manufacturing processes and engineering design methods. Practical aspects of selected major manufacturing processes via workshop and practical sessions give students the opportunities to build up their practical skills and apply their theoretical knowledge to solving practical prob... ENGMP211 Materials 1 15.0 23A (Hamilton) This paper will provide a foundation for understanding the relationship between material structure, processing and behaviour to support engineering of materials and engineering with materials. ENGMP213 Mechanics of Materials 1 15.0 23A (Hamilton) Analysis of skeletal structural members, supports and connections subject to single and combined loading. Calculation of displacements (translations or rotations) and stresses both normal (direct) and shear stresses, in bars, beams and shafts and bearing stress. Use of Mohr's circle for stress transformation and its use in failure ... ENGMP214 Materials Manufacturing Processes 15.0 23A (Hamilton) This paper gives an understanding of fundamental principles and relationships between manufacturing processes and component microstructure and properties. Knowledge of metrology and non-destructive testing in modern manufacturing is also introduced.
Code Paper Title Points Occurrence / Location ENGCB324 Mass Transfer Operations 15.0 23A (Hamilton) This paper covers the application of heat and mass transfer, and thermodynamics to chemical and physical separation process. ENGCB380 Process Engineering Design 2 15.0 23B (Hamilton) Conceptual and detailed design, costing and economic assessment of chemical, biological and materials process plants, including software and numerical simulation, separation trains, heat exchanger and pump sizing, and reactor kinetics. ENGEV341 Environmental Engineering 2 15.0 23B (Hamilton) This paper covers the design, operation and management of unit processes used in environmental engineering including air, water, wastewater, storm water, waste, soils and noise treatment and control systems. ENGME352 Control and Applications 15.0 23A (Hamilton) This paper teaches students the theory and application of control in mechanical and electrical systems. This paper covers the introduction of s-domain and plane, open and closed-loop control, PID control, digital control, root locus and frequency response analysis. ENGME380 Design and Manufacturing 2 15.0 23B (Hamilton) This paper uses problem and project based learning methods to help students gain knowledge and skills in design and manufacturing. Students will be taught how to apply dirty prototyping to a design project, and use modern manufacturing methods to design and produce a complex machine. ENGMP311 Materials 2 15.0 23B (Hamilton) It will develop understanding of the relationship between material structure, processing and behaviour to support engineering of materials and engineering with materials. ENGMP313 Mechanics of Materials 2 15.0 23B (Hamilton) Advanced level knowledge on mechanics and performance of materials, covering stress and strain transformations, failure criteria, unsymmetrical bending, torsion of non-circular sections, fatigue, materials selection and materials testing.
Code Paper Title Points Occurrence / Location ENGCB521 Advanced Process Control 15.0 23A (Hamilton) This paper covers the fundamentals of process control, and introduces advanced process control strategies. ENGEN508 Master's Capstone Project 60.0 23X (Hamilton) This paper requires students to carry out a theoretical or empirical investigation in a relevant subject/engineering discipline and write a report on the findings of the investigation. ENGEN583 Special Topics in Engineering 3 15.0 23X (Hamilton) An independent theoretical literature or experimental investigation of an engineering topic supervised by a member of staff. ENGEN584 Special Topics in Engineering 4 15.0 23X (Hamilton) An independent theoretical literature or experimental investigation of an engineering topic supervised by a member of staff. ENGEN585 Special Topics in Engineering 5 15.0 23X (Hamilton) An independent theoretical literature or experimental investigation of an engineering topic supervised by a member of staff. ENGEN586 Special Topics in Engineering 6 15.0 23X (Hamilton) ENGEN587 Directed Study 1 30.0 23X (Hamilton) Students have the opportunity to pursue a topic of their own interest under the guidance of academic staff. ENGEN588 Directed Study 2 30.0 23X (Hamilton) Students have the opportunity to pursue a topic of their own interest under the guidance of academic staff. ENGME580 Product Innovation and Development 15.0 23A (Hamilton) ENGME580 teaches students the innovation and product development process; levels of innovation, how to screen ideas, Intellectual Property and how to develop a Business Plan. Students will be required to start with a basic product brief, produce a product idea, design and develop a prototype and 'pitch' it to 'investors'. ENGME585 Industrial Technology and Innovation 1 15.0 23A (Hamilton) Using Project Based Learning, this paper will furnish the student with an understanding of the innovation and product development process. It will explain the different levels of innovation, innovation techniques, how to screen ideas, the types of Intellectual Property and how to write a basic Business Plan. For the product develop... ENGMP506 Materials and Process Systems Analysis 30.0 23A (Hamilton) & 23B (Hamilton) This paper covers mass and heat transfer, thermodynamics, materials (including metal, polymer and composites) processing and the relationship between microstructure and properties, and bioprocessing and transformation. ENGMP512 Advanced Materials Manufacture 15.0 23A (Hamilton) This paper deals with advanced materials science knowledge and principles underlying materials engineering. It focuses on the relationships between processing conditions and microstructures of materials and major materials processing technologies. ENGMP516 Materials Characterisation 15.0 23B (Hamilton) This paper covers the basic theory and use of advanced analytical techniques used in materials characterization using optical microscopy, x-ray diffraction, scanning electron microscopy (SEM), transmission electron microscopy (TEM) and differential thermal analysis (DTA).
Code Paper Title Points Occurrence / Location ENMP900 Materials and Processing PhD Thesis 120.0 23I (Hamilton), 23J (Hamilton), 23K (Hamilton), 23X (Hamilton) & 23X (Tauranga) No description available.
2023 Catalogue of Papers information current as of : 7 December 2023 9:06am