Course Title: Apply structural and construction technology to the design of commercial buildings
Part B: Course Detail
Teaching Period: Term1 2013
Course Code: BUIL5924
Course Title: Apply structural and construction technology to the design of commercial buildings
School: 320T Architecture & Design
Campus: City Campus
Program: C6097 - Advanced Diploma of Building Design (Architectural)
Course Contact : Rosetta Di Giangregorio
Course Contact Phone: +61 3 9925 4819
Course Contact Email:design.tafe@rmit.edu.au
Name and Contact Details of All Other Relevant Staff
Nino G Lucci
Email: nino.lucci@rmit.edu.au
Work Phone: 9925 4034
Office Hours: Tuesday to Friday 9:30am til 5:30pm
Nominal Hours: 120
Regardless of the mode of delivery, represent a guide to the relative teaching time and student effort required to successfully achieve a particular competency/module. This may include not only scheduled classes or workplace visits but also the amount of effort required to undertake, evaluate and complete all assessment requirements, including any non-classroom activities.
Pre-requisites and Co-requisites
None
Course Description
This unit of competency specifies the outcomes required to apply structural and construction technology to the design of commercial buildings. It requires compliance with state legislation and the provisions for BCA Classes 2 to 9 and relevant Australian Standards as they apply to the structural and construction components of a commercial building.
National Codes, Titles, Elements and Performance Criteria
National Element Code & Title: |
VPAU584 Apply structural and construction technology to the design of commercial buildings |
Element: |
1. Apply the regulatory requirements for the design of commercial buildings |
Performance Criteria: |
1.1 Relevant state legislation impacting on design and construction is investigated and interpreted for a commercial building. 1.2 Relevant sections of the Building Code of Australia (BCA) and Australian Standards are researched and applied to the structural and construction principles of commercial buildings. 1.3 Local government planning and construction regulations are investigated and interpreted for the design and construction of a commercial building. |
Element: |
2. Investigate site |
Performance Criteria: |
2.1 Site features and available services are identified to plan site preparation to inform the design intent and for preparation of documentation. 2.2 Soil engineer’s report is interpreted to determine specifications for footing systems appropriate for foundation design. 2.3 Environmental issues impacting on the site are identified and controlled according to regulatory requirements. |
Element: |
3 Analyse and apply construction techniques and/or methodologies |
Performance Criteria: |
3.1 Structural systems are analysed and construction methodologies are applied to solve construction system and design issues. 3.2 Structural principles are integrated into the building fabric to accommodate materials and finishes, according 3.3 Alternative approaches to the construction of commercial buildings are considered to accommodate special conditions and in accordance with relevant standards and design intent. 3.4 Scope of work and performance requirements are determined and documented according to project requirements.
|
Element: |
4. Specify structural requirements |
Performance Criteria: |
4.1 Timber wall, floor and roof framing systems are designed and detailed in accordance with timber framing code and with consultation with engineer if required. 4.2 Bracing and tie-down system is designed and detailed to meet structural requirements. 4.3 Steel framing systems are identified and detailed in accordance with construction practices. 4.4 Framing requirements, including all fixings and materials are specified and details documented. 4.5 Unreinforced and reinforced masonry systems are identified and detailed for the construction of internal and external walls in compliance with the Building Code of Australia (BCA) and relevant Australian Standards. 4.6 Details of weatherproofing are indicated to meet relevant Australian Standards. |
Element: |
5. Comply with fire resistance requirements |
Performance Criteria: |
5.1 Building is designed to maintain structural stability and provide safeguards in the event of fire. 5.2 Specifications for building design comply with statutory requirements for fire separation and Deemed-to-Satisfy (DTS) provisions of the Building Code of Australia (BCA). |
Element: |
6. Specify requirements for safety, health and amenity |
Performance Criteria: |
6.1 Wet area materials and sealing of wall and flooring junctions are specified and details documented. 6.2 Facilities and room heights are designed and documented in accordance with the Building Code of Australia (BCA) and relevant Australian Standards. 6.3 Opportunities for natural light and ventilation are considered and mechanical air handling systems for heating, cooling and ventilation are selected on the basis of efficiency and performance. 6.4 Sound insulation materials are selected for sound transmission for walls and penetrations and in accordance with the Building Code of Australia (BCA) and relevant Australian Standards. 6.5 The provisions for safe movement and access are designed in accordance with the Building Code of Australia (BCA) and relevant Australian Standards. 6.6 Building insulation levels, glazing requirements and ventilation are analysed to determine energy usage. |
Element: |
7. Specify requirements for construction |
Performance Criteria: |
7.1 Details for claddings, linings, finishes and coatings are specified in accordance with the Building Code of Australia (BCA) and relevant Australian Standards. 7.2 Joinery fabrication and installations are selected and details of materials and finishes are documented. 7.3 Provisions for the installation and connection of services are specified in accordance with the Building Code of Australia (BCA) and relevant Australian Standards. |
Learning Outcomes
This unit of competency supports the attainment of the skills and knowledge required for building designers to apply structural and construction technology to the design of commercial buildings and includes compliance with current legal responsibilities of building designers for construction methods.
Details of Learning Activities
Learning activities will take place in a studio, workshop or classroom using industry standard tools and resources. You will complete exercises and industry style projects. You will also be required to undertake independent study.
In class activities may include:
• lectures
• class exercises to review discussions/lectures
• practical demonstrations
• group discussion
• studio practice
Out of class activities may include:
• site visits (observations)
Teaching Schedule
Please note: While your teacher will cover all the material in this schedule, the weekly order is subject to change depending on class needs and availability of speakers and resources.
Session Week | Session description | Assessment |
Class 1 | LECTURE 01 / Introduction Salvator Project Brief • Pad footings / slab-wall connection details
|
Students participate in lecture and take notes 3D Pad footings / slab-wall connection detail drawings |
No Class | CASTLEMAINE DAY TRIP | |
Class 2 | LECTURE 02 / Concrete construction technology / precast type / footing types
• Wall / roof connection details |
Students participate in lecture and take notes
3D Wall / roof connection detail drawings 1:5, 1:10 |
Class 3 | • Roof framing / box gutter details | 3D Roof framing / box gutter detail drawings 1:5, 1:10 |
Class 4 | LECTURE 03 / Concrete tilt panel and precast construction details
• Parapet details |
Students participate in lecture and take notes
|
Class 5 | • Window / door opening details | Window / door opening detail drawings 1:5, 1:10 |
Class 6 | LECTURE 04 / Roof framing and bracing
• Final Review prior to hand-in |
Students participate in lecture and take notes
Submission of MP-01 SALVATOR DRIVE 1:30pm |
Class 7 | LECTURE 05 / Bancell Project briefing / footing types / slabs
• Strip footings / pedestal connection details |
Students participate in lecture and take notes
3D Strip footings / pedestal connection detail drawings 1:5, 1:10 |
Class 8 | • Steel portal frame constructions details | 3D Steel portal frame constructions detail drawings 1:5, 1:10 |
Class 9 | LECTURE 06 / Structural Steel Framing / roof framing
• Roof frame constructions details |
Students participate in lecture and take notes
3D Roof frame constructions detail drawings 1:5, 1:10 |
Class 10 | • Masonry parapet details | Masonry parapet details |
Class 11 | LECTURE 07 / Masonry construction / retaining walls
• Masonry / eave gutter connection details |
Students participate in lecture and take notes
3D Masonry / eave gutter connection details drawings 1:5, 1:10 |
Class 12 | • Masonry / steel frame connection details | 3D Masonry / steel frame connection details drawings 1:5, 1:10 |
Class 13 | LECTURE 08 / Structural Opening in Masonry construction
• Structural openings in masonry construction |
Students participate in lecture and take notes
3D Structural openings in masonry construction drawings 1:5, 1:10 |
Class 14 | • Final Review prior to hand-in | Submission of MP-02 BANCELL STREET 1:30pm Electronic Project Submission (PDF) |
Class 1 | LECTURE 09 / Amsterdam Project Brief
• Structural Analysis of Building |
Students participate in lecture and take notes
3D Schematic Structural Analysis of Building drawings |
Class 2 | • Basement drainage systems | Schematic section of Basement / retaining wall & battered earth area drawings 1:5, 1:10 |
Class 3 | LECTURE 10 / Piling & Basement construction
• Pile / slab connection details |
Students participate in lecture and take notes
Pile / slab connection detail drawings 1:5, 1:10 |
Class 4 | • Basement construction detail | Basement construction details |
Class 5 | LECTURE 11 / Structural Floor Systems
• Structural Floor details |
Students participate in lecture and take notes
Structural Floor detail drawings 1:5, 1:10 |
Class 6 | • Balcony / roof construction details | Balcony / roof construction detail drawings 1:5, 1:10 |
Class 7 | LECTURE 12 / Pre-stressed & Post-tensioning of concrete
• Wall connection details |
Students participate in lecture and take notes
Wall connection detail drawings 1:5, 1:10 |
Class 8 | • Internal wall / ceiling details | Internal wall / ceiling detail drawings 1:5, 1:10 |
Class 9 | LECTURE 13 / Cladding, finishes and Façade Systems
• Commercial window / façade details |
Students participate in lecture and take notes
Commercial window / façade detail drawings 1:5, 1:10 |
Class 10 | • Stair / handrail details | |
Class 11 | LECTURE 14 / Commercial joinery detailing
• Commercial joinery construction details |
Students participate in lecture and take notes
Commercial joinery construction detail drawings 1:5, 1:10 |
Class 12 | • Lift construction details / internal car details | Lift construction details / internal car detail drawings 1:5, 1:10 |
Class 13 | Studio time to complete unfinished details | Studio time to complete unfinished details |
Class 14 | • Final Review prior to hand-in | Submission of MP-03 AMSTERDAM STREET 1:30pm Electronic Project Submission (PDF) |
Please note: While your teacher will cover all the material in this schedule, the weekly order is subject to change depending on class needs and availability of speakers and resources.
For detailed outline of the teaching schedule and course structure and current updates, you are advised to also refer to myRMIT.
Learning Resources
Prescribed Texts
References
Other Resources
RMIT will provide you with resources and tools for learning in this course through our online systems and access to specialised facilities and relevant software. You will also have access of the library resources.
Overview of Assessment
This unit of competency could be assessed in the workplace or a close simulation of the workplace environment, provided that simulated or project-based assessment techniques fully replicate design drafting workplace conditions, materials, activities, responsibilities and procedures. Holistic or project-based assessment with other related units is recommended.
A person who demonstrates competency in this unit must be able to provide evidence of the ability to:
• comply with legislative requirements applicable to the design of commercial buildings
• apply the principles of structural and construction to the design of commercial buildings in compliance with the applicable local government authority, relevant legislation and the Building Code of Australia (BCA)
• develop specifications for structural components of a commercial building.
Assessment Tasks
Feedback throughout the course may be written, verbal or a combination of both
Assessment Matrix
An assessment matrix demonstrating alignment of assessment tasks with the relevant Unit of Competency is available from the course contact person (stated above).
Description Mark Result Range
High distinction HD H 80 - 100
Distinction DI D 70 - 79
Credit CR C 60 - 69
Pass PA P 50 - 59
Pass ( pass or fail subjects only ) PX P
Fail NN N <50
Other Information
Academic Progress:
At the end of each academic period individual student progress will be reviewed by the Student Academic Progress Review Committee and students will be advised of their eligibility for progression.
Student Charter:
The Student Charter, in association with the University’s statutes and law, indicates what the University and its students can expect from each other. The University’s mission is to create and disseminate knowledge to meet the needs of industry and the community and to foster in students the skills and passion to contribute to and engage with the world.
http://www.rmit.edu.au/about/studentcharter
Student Responsibilities:
In undertaking this course students are required to be responsible for:
•The time management of the course work in order to complete all work requirements satisfactorily and on time.
•RMIT encourages students to attend all scheduled classes to optimise academic success.
•To ascertain what content or assessment has been missed, and gather the information prior to next class.
•To be proactive in mastering the academic material of the course by challenging, questioning and extending course outcomes.
•To be responsible for the maintenance of a non-disruptive and scholastic attitude in the learning environment.
See RMIT Academic progress information, responsibilities and support for current students:
http://www.rmit.edu.au/browse;ID=nzasms4pljer
Extension of Time for Submission of Assessable work Procedure:
Students must refer to the RMIT policy for eligibility and procedures.
http://www.rmit.edu.au/browse;ID=7usdbki1fjf31;STATUS=A?QRY=extension%20of%20time%20form&STYPE=ENTIRE
Equitable Assessment:
Students must refer to the RMIT policy for eligibility and procedures.
http://www.rmit.edu.au/browse;ID=id0959jyz9mx
Special Consideration:
Students must refer to the RMIT policy for eligibility and procedures.
http://www.rmit.edu.au/browse;ID=qkssnx1c5r0y
Assessment Principles:
Final assessment decisions can be reviewed and or appealed.
See RMIT Assessment Policies:
http://www.rmit.edu.au/policies/academic
Employability skills:
Employability skills describe non-technical skills and competencies that are an important part of effective and successful participation in the workplace.
The following Employability Skills are an inherent part of this course:
Communication, Teamwork, Problem solving, Initiative and enterprise, Planning and organising, Self management, Learning and Technology.
Plagiarism:
Refer to the RMIT policy on plagiarism which is reference under Academic Integrity atRMIT
http://www.rmit.edu.au/browse;ID=kw02ylsd8z3n;STATUS=A?QRY=Plagiarism%20-%20student%20information&STYPE=ENTIRE
Course Overview: Access Course Overview