Concrete radar scanning is used in a variety of applications including home siding, flooring, fencing and counter tops. As an overlay it offers a superior finish and can add structural strength to concrete and stone structures. A major benefit of using granite as a surface is the increased strength associated with the underlying structure. The strength provided by GPR scanning for concrete allows the reinforcing bars to be located directly over the granite. This provides a consistent, uniform layer of top counter with better penetrating power and reduced costs associated with repairs and maintenance.
GPR scanning Melbourne is used for concrete slabs has become increasingly popular because of the ease of operation and cost savings. Using GPR Scanning for concrete slabs offers a number of benefits. For instance, the scanning process for concrete slabs is much faster than conventional cutting methods. This means that cutting concrete slabs with tools using traditional techniques can take significantly longer. The additional time spent setting up the equipment can also increase the costs associated with the project. Furthermore, GPR scanning reduces material waste which saves landfill space.
There are a number of different advantages associated with the implementation of GPR scanning for concrete slabs. Firstly, electrical imaging provides a much more accurate readout of the level of reinforcement needed on the concrete slab. With this technology, owners and operators are able to determine the quantity of reinforcement that is necessary to achieve the desired result. A more accurate readout of the levels of reinforcement is important because it can help determine the cost savings associated with doing the work in a more efficient and economical manner.
Cost Savings – During the construction project, one of the primary cost drivers will always be labor. Using GPR Scanning for concrete – either pre-fabricated or at-site – eliminates the cost of purchasing mechanical tools as well as manual labor. As a matter of fact, when it comes to rebar installation, the installation of the rebar – which includes not only post tension cables but also cut steel wire – can be performed by GPRS scanners. Additionally, there is no need to contact a general contractor – a task typically reserved for large commercial projects. Furthermore, GPRS scans can help detect problems – both at the site and during the manufacture – before they become a problem.
Material Reduction – As mentioned above, GPRS technology can aid in the detection of weak spots in concrete. By eliminating the need to perform costly and often time consuming concrete leveling and rebar installation – as well as the actual concrete leveling – GPRS can eliminate the cost related to poured concrete. In the long run, this can provide a significant cost saving measure. It is important to note that if a problem is detected during the actual leveling process – before any rebar is installed, for instance – that rebar installation will be required. This will require the removal of concrete from the poured slab and the replacement of weakened concrete slabs with stronger ones.
A concrete inspection technician can offer a variety of services to a project manager or owner. Typically, such professionals will have completed an education and have several years of experience in the field of concrete inspection. Most such experts have been certified through the GPRS scanning process. In order to ensure maximum accuracy, such professionals will generally carry out a GPRS scan of a targeted area on a regular basis. When planning a scanning program for a large area, many such professionals will suggest that a single vehicle be used to simultaneously perform the two tasks – enabling higher resolution scanning and a lower risk of operator error.
