Exposed aggregate concrete is when the upper layer of concrete is stripped away using practised methods to show the underlying rock ingredients that are mixed into the concrete. This popular type of decorative concrete is extremely flexible and durable as the stone is usually more difficult than concrete.
In Concreters WA we offer an assortment of exposed aggregates in a range of colours and stone variants to suit your house, commercial or industrial property.
This concrete product certainly brings with it its own sense of style that adds an extra dimension to your house.
If you're looking for exposed aggregate in Perth, then Concreters WA is the best company to work with as we've got the experience and expertise that will help you follow your layout ideas and create the suitable colour selection.
Whatever decision you make, you can rely on us to offer the highest quality exposed concrete in Perth. We use proven techniques in adding aggregate materials from the mix to ensure maximum consistency and integrity. We have perfected our concreting process over several years and we promise stylish and exceptionally durable exposed aggregate products to meet your needs.
At Concreters WA, our exposed aggregate cost is also very reasonable as you will not only secure beautiful and functional aggregate concrete paving but it is going to last you a very long period as well. Contact us today!
Concreters WA is the reliable Perth liquid limestone supplier and we have great pride in supplying high quality liquid limestone alternatives, that can be created from a combination of crushed all-natural limestone and top-grade concrete substances.
Through time, our liquid limestone paving has become the best selection for all those searching for a fashionable and durable landscaping alternative. Affordability is also an integral variable and our liquid gas cost is one of the most competitive you can see in Perth.
Concreters WA, respect liquid limestone as an perfect substitute if you would like to opt for the normal paver look on your darkened regions. Completely opposite from pavers which are placed separately, liquid limestone paving is poured together in one uniformed block, which makes it resistant to ordinary outside nuisances such as anthills and weeds.
Aside from that, our pumped limestone in Perth has lots of other advantages such as:
No sinking or motion of pavers that need replacements and maintenance. The natural attributes of limestone maintain your emitting far cooler underfoot in warm weather, which makes it perfect for pool and other outside places.
Poured limestone calls for a distinctive set of skills and equipment plus we're pleased to say that we've mastered the art and method of producing liquid limestone in Perth, which will exceed all of your expectations. Our highly skilled team of contractors are devoted to producing liquid limestone products which have trendy finishes, stunning textures and superior bonding components to ensure amazing longevity.
Contact us now to learn more about our liquid limestone offerings in Perth which can do wonders in enhancing the visual attractiveness of their outside areas in your property. We respect liquid limestone as an perfect substitute if you would like to opt for the normal paver look on your darkened regions. Completely opposite from pavers which are placed separately, liquid limestone paving is poured together in one uniformed block, which makes it resistant to ordinary outside nuisances such as anthills and weeds. Call for a quote.
Concrete is so widely used these days it has become integral to our construction methods because it is the only building material that cost-effectively delivers:
It is quite simply the most versatile building material on earth. Here are more details:
LOW CARBON FOOTPRINT
Concrete’s energy efficiency, durability, and recycling capabilities combined with low carbon Portland limestone cement contributes to making it the lowest carbon building material over the lifecycle of a structure or pavement.
STRONG, DURABLE AND LOW MAINTENANCE
Concrete can last decades longer than alternative building materials and gets stronger over time. Thus, reducing the total cost of ownership as well as the environmental impact associated with more frequent rehabilitation or reconstruction.
Concrete does not burn, rust, or erode. It is resistant to fire, wind, water, vibrations, and earthquakes, making it safer and reduces costs. Even after severe weather conditions, concrete structures have proven to be extremely resilient.
A totally inert substance when cured, concrete is literally emission-free and will not emit any gas, toxic compounds, or volatile organic compounds.
While functional and strong when cured, concrete’s flexibility when freshly mixed lets designers adapt it to whatever form, shape, surface, and texture they can imagine.
CAN BE ADAPTED FOR BUILDING REUSE
Because of concrete’s strength, sound attenuation, and fire resistance, concrete buildings can easily be converted to other occupancy types during their service life. Reusing buildings in this way can help limit urban sprawl and further contributes to the conservation of our resources and preservation of the environment.
Thanks to their durability, resilience, low maintenance requirements and energy efficiency, concrete structures reduce operating costs related to operational energy consumption, maintenance, and rebuilding following disasters. Insurance costs for concrete buildings during the construction and operating phases have also been shown to be significantly lower than for buildings constructed with combustible, moisture-sensitive materials.
Concrete pavement is also a cost-effective solution, requiring only a third of the maintenance compared to asphalt road requires.
Concrete can be recycled as aggregate — for use as sub-base material in roadbeds and parking lots, for gabion walls, as riprap to protect shorelines or in other applications — or as granular material, thereby reducing the amount of material that is landfilled and the need for new materials in new construction.
Concrete is typically manufactured in most countries locally, using local resources. This greatly minimizes transport and other pollution and makes a significant contribution to the local economy.
Contact Concreters WA today if you are looking for the number one local concrete company. We have everything that you need to get brilliant services and unbeatable results. Our combination of high-quality concrete, expert concrete contractors, and affordable pricing will ensure that you get everything that you want and need. For residential and commercial concreting in Perth, let us be your first choice. Call or email us if you have any questions or concerns.
Getting your concrete slab right the first time is paramount for many reasons as it sets the stage for every other trade that comes after it.
A good slab has solid compacted area that will not shift, is level and is raised above the surrounding area to keep water from collecting around or entering your home.
Make sure you get the professionals in to ensure your concrete slab is right from the outset.
Here is what Master Builders WA have to say about the curing process.
Curing is a process which takes place when a concrete slab is laid. As concrete is being poured, fresh concrete is converted into a solid mass when the cementeous materials hydrate. The action taken after the slab is laid to ensure hydration is called curing.
Curing is the protection of fresh concrete from evaporation. When a concrete slab is laid on ground or above ground for a two-storey home, there is a need to control the rate of moisture loss from the concrete during cement hydration. Curing is necessary to ensure that the concrete does not dry out too quickly so that the slab will build up strength, long-term durability and wear resistance. The compressive strength of properly cured concrete can be double that of concrete that has not been cured.
If concrete is allowed to dry too quickly, it may cause shrinkage, cracking or a weak powdery surface on the slab. Depending on the climate, slabs may be kept wet with the use of hessian bags, plastic membranes or similar. There are also chemical compounds which can be sprayed or brushed on the slab surface to ensure adequate curing. However many concrete structures receive no curing other than that they are left idle for several days after the concrete has been placed.
Concrete slabs must be installed in accordance with Australian Standard AS 2870. “Slab” issues that most often arise in disputes between builders and owners relate to the size of cracks that may appear, and the thickness of the concrete slab installed. In Western Australia the most common slab thickness is between 85mm and 100mm. This thickness will be stated in the specifications document which forms part of your contractual arrangements with the builder.
Most Perth building sites are flat and sandy so an 85mm slab would be sufficient for single storey residential construction. If you are building a two-storey home and/or in the hills, engineering requirements usually require a 100mm slab, with thickening under internal walls.
If you have a long slab, perhaps greater than 20 metres in length, any savings from an 80-85mm slab will be offset by the requirement for more steel reinforcement. Steel reinforcement increases the tensile strength of concrete and controls the width of shrinkage cracks.
Cracking of concrete slabs is a common occurrence, but it is not necessarily a major problem. Some slab cracking is almost certain because concrete shrinks as it loses moisture, when temperatures change or when there is ground movement.
While slab cracks can look unsightly and affect the application of tiling or other floor finishes, many cracks do not affect the structural integrity of the slab.
Cracking can be reduced particularly in hot weather if the builder uses an evaporative retarder after screeding and bull-floating. Water spraying reinforcement, using water ponding or damp-hessian to provide shading to the concrete, or in certain circumstances providing an expansion joint are some ways to prevent cracking.
Other more general measures that a builder could use to prevent cracking during placing, finishing and curing include using higher slump concrete if high workability is required, dampening the subgrade prior to concrete placement, ensuring formwork and reinforcing is optimal and that concrete is placed quickly and compacted adequately.
Despite these preventative measures, on some occasions cracking can be severe. If you are still worried about your slab or the width or length of the cracks, contact your builder immediately. A structural engineering report may be needed in extreme circumstances to determine what remedial work may be necessary.