The Diploma of Built Environment provides entry into three different career paths:
Students who complete the Bachelor of Applied Science (Construction Management) at Curtin University are eligible for membership in a number of professional bodies, including Australian Institute of Building; Australian Institute of Building Surveyors^; Australian Institute of Quantity Surveyors; Board of Quantity Surveyors Malaysia*; Chartered Institute of Building; and Royal Institution of Chartered Surveyors.
^Pending accreditation outcomes
*Conditional registration
Students must complete seven core units and one elective units:
Students must complete the following core unit and seven course-specific units:
Stage 2 Units – 25 Credit Points Each
Research, written communication and oral presentation in academic and professional contexts. Develop reflective, critical and evaluative thinking and teamwork skills and the ability to articulate the practices that lead to successful collaboration.
This unit considers the various contexts within which the design of small-scale buildings occurs. It addresses the built, human and natural environments and the relationships between them.
Fundamental study of design methodologies and techniques to propose conceptual ideas and further the development of these in order to allow final design propositions to reach full fruition. Principles are developed through a sequence of assigned methodical tasks instructed and performed in class. The study-period ends with an intensive workshop.
Introduction to the foundations of reading, constructing, understanding and presenting architectural drawings. Students will gain knowledge of applying architectural drawing conventions: drawing syntax, graphics, symbols and annotations will be taught both manual (mechanical) drafting and CAD (computer aided design). A standard set of drawing types will be covered to include plans, sections, elevations and axonometric.
An introduction to building an understanding for the representation of the architectural form. Through a gradation of skills taught, this unit allows students to present design though mixed media. The sequence of topics includes: a studio-based introduction to hand-drawn perspectives, rendering and collage; and lab based sessions which will introduce Computer Aided Design in 3D and digital collage for architectural representation of space, form structure and material.
Introduction to low rise construction technology, ability to read construction drawings, prepare typical construction details and understand techniques of key building components and commonly used building materials. In addition, it introduces the fundamentals of physics essential to understand building performance in terms of strength, heat, light and sound.
This unit introduces architectural precedents and encourages students to develop skills in observation to interpret, explore and synthesize ideas into small projects expressing relationships of the body to landscape, space, form, structure and materials.
This unit is designed for students who are studying architecture and therefore need to understand some key architectural ideas and techniques for architectural analysis. In this unit as a developing professional students acquire knowledge and skills necessary to observe, record, and critique architecture and the built environment based on key architectural theories.
Through a series of practical design projects and exercises, held within a digital environment, this unit introduces students to industry-standard design technologies and software.
Stage 2 Units – 25 Credit Points Each
Research, written communication and oral presentation in academic and professional contexts. Develop reflective, critical and evaluative thinking and teamwork skills and the ability to articulate the practices that lead to successful collaboration.
Introduction to the application of measurement in the construction industry, use of dimension paper, conventions for setting out and recording measurements, quality control procedures for completing measurement tasks, and practical experience of measuring simple examples of all major building trades.
This unit broadens students’ knowledge in commercial and industrial areas of construction technology. Examine how commercial and industrial dwellings are built and how materials are used in them. Students will also develop the ability to read plans and illustrate construction details.
An overview of the construction industry, project life cycle, the industry’s place in the community and external factors that influence it. The role, functions and professional practices of construction managers, quantity surveyors and project managers. An introduction to a range of management concepts and techniques associated with construction projects.
This unit is designed for students who are pursuing tertiary studies and a career in Construction Management related professions, building fundamental knowledge and understanding of the concepts and techniques associated with managing the conception, planning and construction of building projects.
Introduction to low rise construction technology, ability to read construction drawings, prepare typical construction details and understand techniques of key building components and commonly used building materials. In addition, it introduces the fundamentals of physics essential to understand building performance in terms of strength, heat, light and sound.
Application of building processes with regard to site organisation and layout. Materials and plant management systems. Site supervision and reporting. Work study and method study. Subcontracting management. Site cost control. Site security. Industrial relations in the construction industry. Workers compensation and safety acts.
Forces, moments and equilibrium, ties and struts, loads on buildings, pin-jointed frames, shear force, bending moments and the design of beams and columns. Methods of indeterminate analysis. Design of structural elements in accordance with the Australian Steel Structures Code and the Timber Engineering Code. Design of temporary works including framework and scaffolding.