If you grew up in Perth like most of us in the office have, then you’ll have grown up assuming that the way to build a house is to use bricks. The Australian Bureau of Statistics tells us that in the last 100 years or so there has been a long-term shift away from from timber towards brick as the most popular material for outer walls in Australia. In 1911 25% of outer walls were made of brick, in 1981 58% of dwellings had outer walls made of brick and by 1994, 65% of dwellings has outer walls made of brick and 87% of new dwellings had outer walls of brick. In 1993-1994 Western Australia led the way with the highest percentage (87%) of new dwellings constructed with outer walls of double brick of all states and territories, compared to New South Wales’ 13% and Victoria’s 1%. Results from a recent survey conducted by the Department of Housing and Department of Planning and published in the 2013 The Housing we’d Choose: a study for Perth and Peel show that approximately half of respondents prefer double brick as a building material for their homes. This suggests that resident sandgropers have come to develop and still maintain a significant fondness for the brick!
Materials of outer walls of occupied private dwellings in Australia (Source: ABS Census of Population and Housing (1911-1981); Australian Housing Survey (1988 and 1994))
WHY BRICK?
These days people are a bit more savvy when it comes to deciding how they want to build their houses with respect to future energy usage, especially given that that heating and cooling can account for more than 40% of the average home’s energy. Advertising materials from brick manufacturers will tell you that bricks will increase your home’s energy efficiency, offer superior levels of thermal comfort, and that heavy weight construction materials with high thermal mass (such as concrete floors and insulated brick walls) can reduce total heating and cooling requirements compared to a home built of lightweight materials. But is this actually the case in Perth, Western Australia? And is thermal mass the only consideration?
Thermal mass is the ability of a material to store and re-release heat. It is not the same as insulation which stops heat from flowing into or out of a building. When used correctly, thermal mass is considered most useful in locations that have large swings in temperature between day and night because of the capacity to delay heat flow through a building by up to 12 hours (known as ‘thermal lag’). However, in climates that are constantly hot or constantly cold, housing materials with a high thermal mass can actually be detrimental because the materials will tend towards the average daily temperature, which during Perth’s summer can be around 30°C!
Generally speaking, a building of high thermal mass needs to gain or lose a large amount of energy to change its internal temperature, whereas a lightweight building requires only a small energy gain or loss to change its temperature. While double-brick has typically been promoted as useful for improved wall insulation, the high thermal mass of brick means that when these walls heat up, they hold their heat and release it slowly. While this is of obvious benefit in cooler climates, it is not necessarily a good outcome in Perth’s relatively hot climate when you’re trying to sleep during a summer night, particularly in the context of increasingly intense and frequent heatwaves (described in a recent post here). The Australian Government’s guide to environmentally sustainable homes suggests that lightweight, low mass construction is most suitable for warm/mild temperate climates, particularly in the upper levels of a building in multi-level design.
Perhaps the way we have been building in Perth in recent decades isn’t actually the most climatically-ideal and the notion that if a house is not made of brick then it is not sound needs to be challenged……So what are the alternatives and are they being used yet?
A number of wall construction materials with significantly high energy efficiency ratings that meet Building Code of Australia standards are now readily available as alternatives to brick. These materials are typically used with a lightweight frame (steel or timber) and some examples and their R-values include:
- Highgrade polystyrene (~R2.5)
- Straw bales (~R5.5 – 8.5)
- Brick veneer and batts (~R2.5, depending primarily on batts)
- Insulating concrete forms/cladding (~R0.9 – 3.35)
- Aerated concrete blocks (~R3.6 – 3.9)
The R-value or thermal conductivity of a material or an assembly of materials (such as insulation panels) is a measure of its thermal resistance and depends on the material’s resistance to conductive heat transfer, that is, its ability to insulate. The higher the R-value of a materials, the better its insulation properties. Quoted wall R-values are usually a combination of R-values associated with the elemental construction of a wall, and include values for air pockets, studs and frames, as well as the material itself. Different R-values are appropriate for different climates and are defined for different regions in the Building Code of Australia and Australian Standards AS 2627.1-1993. The R-value of uninsulated double brick is typically between R0.50-1.0 (as shown here and here).
CASE STUDIES
Lathlain, Perth – a small-scale development featuring two townhouses achieved 10 and 9 star energy ratings using reverse brick veneer and strawbale construction.
Strawbale ‘truth window’ (Source: Paul Downton, http://www.yourhome.gov.au/materials/straw-bale)
North Shore, Sydney – townhouses were design to include wool polyester batts installed in the walls with a lightweight timber frame and plaster board. The overall design achieved a 6 star energy rating.
Sydney North Shore, NSW (Source: Simon Wood Photography, http://www.yourhome.gov.au/case-studies/sydney-north-shore-new-south-wales)
OTHER CONSIDERATIONS
Of course the material used for wall construction is only one of a number of elements that combine to affect the comfort and energy efficiency of a house. Factors such as roofing and windows (through which a large proportion of house heat is transferred), as well as ventilation, positioning and shading, also need to be considered in the design of an energy efficient house. Other ways to improve the energy efficiency of new or existing homes include:
- Good solar passive design (positioning of windows and choice of flooring materials) which lets sun and heat in during winter and keeps it out in summer;
- Good insulation of the roof and ceiling
- Reduce air leakage through gaps in door and window frames, floors and ceilings
- Double glazing for windows
- Shade – planting deciduous trees along eastern and western walls to protect them from the summer sun
- Wide eaves or a verandah along the northern aspect of a house to block summer sun but let in winter sun
- Installation of curtains or pelmets to reduce heat movement through windows
Unfortunately in Perth, the perception still exists that if a house is not made of double brick it is not as structurally sound as a lightweight-framed house and this can even affect re-sale value. How we change this perception is a major challenge. A greater challenge is how to encourage Australians to improve the energy efficiency of existing homes given they represent the most significant proportion of housing stock. Do we introduce mandatory energy efficiency ratings such as they have done in parts of the UK and elsewhere in Europe for some time? Such strategies have the potential to get people to move away from double brick and embrace alternative building materials and techniques that allow for faster construction and better thermal performance, and thus lower energy bills. That issue will have to be explored in another article….
The Current 
Thanks for this article. Yes, you certainly do make assumptions about how to build a house when you grow up with bricks. There are some factors you haven’t considered in this analyis though which may further shift people’s preferences towards brick. I have certainly noticed the difference after living in a brick house, then timber framed then back to brick.
1. Sound transmission. In the timber framed house we could hear the washing machine from one end of the house to the other. Not so in a brick house.
2. Durability of wall. In the timber framed house it was easy to accidentally knock a hole in the gyprock (especially with young kids).
Are these overcome by the newer building materials? I wouldn’t think so, but I’d be interested to find out if they are.
Hi Peter,
Thanks for your comment! With regards to sound proofing and protection from damage – perhaps brick internal walls are the answer to that, to provide a bit of sound proofing and internal thermal mass? In combination with external light-framed walls. I imagine someone like Griff Morris (http://www.solardwellings.com.au/about-us/our-team/griff-morris) would know more!
Well,I grew up in Perth and also thought that brick was considerably structurally more sound, better thermally etcetc. We built two houses made of double brick in our 20’s and then migrated to the USA where almost all houses are made from brick veneer or timber frame.
We then built a house while living in the USA and it was brick veneer. Boy, did this change our opinions! Much better thermally and much better acoustically. We had a high end theatre in this home and you couldn’t hear a peep from it despite being able to rattle doors and light fittings inside the room.
We then moved back to Australia and have since built another double brick home and then moved into a brick veneer residence. This second brick veneer residence didn’t hold a candle to the first-terrible acoustically and terrible thermally. Why? Because the people who built it used it as a dirt cheap method of construction rather than spending a couple of thousand more to properly construct it and insulate the walls.
We added a theatre to this home (made from timber stud and gyprock walls with sound isolation etc) and this had incredible acoustic performance -better than brick. People who hear (or don’t hear it!) how little noise escapes from this room are amazed by it.
We are now looking to build another residence and thermal and acoustic performance of the dwelling is important to us. We’ll be installing double glazed windows all round and would pick NRG with internal timber stud and insulation for the best in thermal and acoustic performance if it weren’t for the backward attitudes in Perth towards better more modern construction techniques. Born in Perth, raised in Perth, educated in Perth and lived in Perth for 93.5% of my life. But boy are we backwards.
Is plasterboard easy to put a hole in? Yes if you like to throw cricket balls inside. But plastered brick walls are easier to cosmetically damage and easier to chip etc. Gyprock is easier to repair if you know what you’re doing…
Thank you very much for the article, it was much appreciated and helpful.
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