ABPL20033 - Construction Analysis, Semester 2 - 2020 Dr Alberto Pugnale, Subject coordinator Dr Sofia Colabella, Senior Tutor Anastasia Sklavakis, Tutor Muyan Li, 1068026, 30 October Lake Wendouree Residence, Tutorial 6. ASSIGNMENT 3
FLIPBOOK SECTION 3D: Layers of information Cover image, photo by ...................... Peter Bennets
1. Structural Systems, below ground Structural systems, below ground
How did the site conditions affect the deisgn of the house? For the Lake Wendouree Residence, the existing site and landscape condition have big influence on the building designing process. The site condition includes soil condition, climate change, energy supply, existing landscape etc, which are all need to be well considered during the designing process. Firstly, it is siginifant to check the soil consition as one of the most important part of site preparation. The soil testing is done by workers and a site report is completed before constructing of the site. According to soil report, the site is labelled as P (problem site). Therefore, stiff clay is used under concrete footing to enhance ability of bearing vertical loads. In addition, in order to create better view for lake wendouree residence, the internal layout of the house is designed with large galzing. For example, bedroom and living room are facing lake that located near the building, which provides more visual connection between indoor space and outdoor environment.
Reinforcement steel mesh with rebar chairs to fix void formers 300mm polystyrene void formers, 110mm for spacing
200mm Stiff clay to enhance soil capacity and bearing load from concrete footings
Horizontal
300mm polystyrene void formers with spacing of 110mm
Reinforcing Mesh
Square rib mesh sheet is used with polypropylene rebar chairs
Waffle Pod Raft Slab
Vertical
Compacted engineering fills to bearing direct load of the building and increase the ground level to keep ground a flat surface.
Void Formers
Concrete slab with 110mm in thickness
Sand Bed
50mm sand bed covers the engineering fill
Engineering Fill
150mm Class 2 crushed rock compacted engineering fill
Internal Beam
300mm*385mm width internal beam placed under load bearing components
Retaining Wall
concrete retaining wall with 220mm thickness constructed for kitchen area
500mm sand bed cover consists of dead sand and live sand to leveling the surface
Raft Slab
Reinforcing mesh M15Pa blinding concrete footing bearing loads
Void formers Sand Bed
Soil
Engineering fills Blinding concrete Soil Stiff clay
Section 3A Scale 1:50 @A3
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Axonometric View
2. Structural Systems, above ground
Horizontal
How does the structure define the composition of architectural form and space?
Ground Floor
Structural Systems, above ground Vertical
The internal layouts of Lake Wendouree Residence is well considered and funcitoned. The ground floor is mainy the living room which constructed by timber stud framing, steel columns and steel beams to bear loads. In addition, the overhang part in the first floor supported by steel beams mainly, which enlarged indoor space in first floor and forms kitchen area. Structural elements constructed in first floor provides support for roof system, which seperated interior space and exterior space. The steel structures of ground floor are designed to support large glazing, which brings more natural light for building.
First Floor
200*100 RHS, 89*89 SHS, 125*100 RHS Steel columns are used
Timber stud framing walls: 120*45 MPG10 with noggings
Steel Beams type: 310 Universal beams bolted on steel columns with 10mm cap plate Timber stud framing wall: 120*45 MPG10 Floor Joists: 350mm and 530mm floor trusses for intermediate floor Timber Battens: 30mm*70mm timber battens
Bracing: Plywood 7mm bracing nailed on ground floor walls and frist floor walls
Trusses: 90*45 timber MGP 10 Pine at 450 CTS Bracing: 30*0.8 galvanised metal strap bracing installed on roof trusses, ground floor and first floor with cap plates Timber columns: 90*45 MGP10 Pine
90*45 Timber MGP 10 Roof Trusses
120*45 MPG10 Timber Stud Framing wall with noggings Steel beam: 310 Universal beams
Roof Structure
350mm Timber floor trusses as floor joists
530mm timber floor trusses are used as floor joists
First Floor Structure
Steel columns 200*100 Steel columns 125*100
Ground Floor Structure
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Axonometric View
3. Internal (non-load bearing) partitions
Stairs
How do internal partitions organise the life inside building? The internal walls divide whole building into different areas and seperate different activities according to functioned places. For example, bedroom is formed by internal walls and it is more private than other area. In addition, internal partitions can also enhance the connection between indoor and outdoor but still keep them seperately. The sliding galss door near the courtyard provides more visual connection with environment and allows people interact between courtyard and interor space. Moreover, fixed partitions such as stud wall divides kitchen area and hallway depending on different functionality. However, the space is not entirely independent because the kichen is not closed with door, which makes space more free.
Fixed
Timber stud framing wall
Internal Partitions Windows
Movable
Sliding glass
230mm*180mm supported by timber stud wall and timber stud handrail 90mm*45mm non-load bearing 44mm thickness double glazed glass supported by steel beams, double glazed low-E glass
Ceiling Structure is constructed under the roof truss preparing for plasterboard installing Roof Structure
Non-bearing loads internal partitions (timber stud wall) are installed to seperate rooms
Upstairs Living Room Bathroom
First Floor Structure Timber structure are constructed to leave space for sliding window Kitchen
Cellar
Structure of kitchen bench is installed
230mm*180mm stairs
Non-bearing loads timber stud framing with noggings
Ground Floor Structure
Axonometric View ABPL20033 - 2020, Muyan Li | 1068026 |Tutorial 6 |Anastasia Sklavakis | p. 4
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4. Environmental Protections How did the architecture approach the design of environmental protections? Do the elevation express or hide environmental protections?
Environmental Protections
Architects hide most of the architectural components and only expose some of the essential material elements, which is for environmental protections. For roof system, the materials of all the exposed elements such as roof sheeting , box gutters and downpipes are choosen carefully to match the external cladding and surrounding landscape. External wall are covered by external cladding to keep the material consistency. The solar panels on the roof supply electricity for the Lake Wendouree Residence, which is beneficial for environment and energy efficiency. Due to the overhang of the first floor, ground floor underneth it may be hard to gain natural light, which might result in increased usage of lighting for kitchen. To gain more light for ground floor, large double glazing is installed for the facade of kitchen, which is another way to lower the energy usage to achieve environement protection. Rainwater tank stores and recycles rainwater to reuse it.
Plasterboards installed under ceiling structure as protection and provide flat ceiling surface
Rainwater tank
Storing rainwater and waiting to be recycled
Box gutter
Collecting rainwater Guiding water and avoid penetration and direct moisture
Flashing
Water
Installed underground to prevent water leakage
Waterproofing Thermal Insulation Lighting
210mm Bardford Aticon Roof Blanket with R=4.1 for roof Glazing
Box gutter is to collect rainwater on the roof and let it go to rainwater tank
Plasterboards start to be installed on the wall to cover and protect wall structure
120mm Bardford Sound Screen Plus with R=3.2 for external wall
Windows and skylights lower electricity usage
88mm Bardford Sound Screen Plus with R=2.5 for insternal wall
Stramit Speed Deck 700 roof sheeting is intalled with hallow space for airconditioning
Exterior walls are constructed to hide structural system The Exterior timber strips are installed
Insulation for floor system Brick walls are established for cellar area, storeage area and bathroom area.
Insulations are filled inside walls, roof structure and floor system to lower energy transfer and keep steady room temperature
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First Floor Structure
Ground Floor Structure
Axonometric View
5. Mechanical and electrical systems Did the architect organise the internal spaces to place mechanical and electrical services efficiently?
Water Supply
Essential services
All the mechanical and electrical services are organised in a simple way within the internal spaces. To achieve higher level of safety and more cleaned interior space in the building, architects minimise the exposure of pipes and wires. Pipes and wires are hidden inside of flooring system, wall system and some of them run through roof system. For example, the electric wires are hidden inside wall and are connected to electronic switchboards and powerpoints directly, which is helpful to prevent wire aging and increase ability of water resistance. HVAC is placed near the dining room that is the center of the ground floor, which provides balanced heat transferring to other rooms in ground floor. Also, heating and cooling system are placed depending on specific situation. For instance, bathroom needs extra heating espeically when people are showing. Therefore, an air-conditioning is installed on the roof of bathroom. Water pipes are mainly placed around kitchen and bathroom that are spaces require large amount of water supply.
Elecricity
HVAC
Water and hot water supply connected to water mains and covered the whole building
Main water
collecting from box gutters, Storing in the underground rainwater tank
Switch boards and Powerpoints
Electricity are supplied by electric wires connecting to switchboards and powerpoints
Solar Panels
Solar Panels are placed on the roof to provide electricity (more environmental friendly and energy saving)
Heating
Hydronic heating panels (first floor) and airconditioning (bathroom)
Cooling
Space for air-conditioning in the bathroom
Spaces for downlights
Rainwater system
19 Solar Panels and HWS (Hot Water System) are installed on the roof
Roof
Plasterboards installing finished
Electronic wires run through levels to supply electricity
Water Pipes supply water for kitchen and bathroom
AC condensor Hot water boiler and hot water pump (labelled from left to right) connect to hot water system on the roof
First Floor
Ground Floor
Axonometric View ABPL20033 - 2020, Muyan Li | 1068026 |Tutorial 6 |Anastasia Sklavakis | p. 6
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Enclosure Systems
6. Physical Enclosures systems
Interal space
Do the physical enclosures express aspects of the building (internal spaces, structure and materiality)?
Plaster Board
13mm Plasterboard with white color
Stone tiles
Pietra Bronzea Brushed stone tiles for bathroom
Timber decking
Physical enclosures including roof system, flooring system and wall system (including windows, skylights and other elements that defined space). The physical enclosures seperate the space inside building and space out side building. For example, building facade and roof system form a more private indoor space. Also different materials are used for front courtyard such as brick, timber, glass, which provides unique outdoor experiences. Simple cladding wall, using of large glazing form modern style of the building. Physical enclosures also divide whole building into different areas. The internal walls defined different functioned areas such as bedroom and bathroom. Different flooring materials also represents different indoor areas. For instance, bathroom uses tiles as ground for waterproofing. Timber decking are used mainly in the first floor, which shows first floor is more private than ground floor (living room).
Tiling
External space
Roof metal sheeting Brick
Paving
Cladding Windows/ skylights
130mm*19mm tongue and groove boards are used in the first floor Ceramic white tile 200mm*300mm used in bathroom
Stramit Speed Deck 700 roof sheeting Brick wall (BL-01) Grampian Blue Dark Blend Pryanese Stone Sandstone paving used in courtyard Zinc Cladding exterior wall
Double Glazed windows with AS1288 and grade A safety glass
Ceramic white tile 200mm*300mm are used in bathroom walls and bathroom ground for waterproofing Zinc Cladding exterior wall Double glazing sliding window for kitchen is intalled
130mm*19mm Timber decking floor for upstairs living area Stone tiles are installed for ground floor (kitchen, cellar and storeage room)
Axonometric View Section 3A Scale 1:50 @A3
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