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new york city ny nyc long island nassau county suffolk county li l.i. connecticut ct new jersey nj brooklyn queens manhattan the bronx staten island ground penetrating radar contractors gpr contractor ground radar contractor ground-penetrating radar contractor surface penetrating radar contractor gp radar contractor concrete x-ray contractor concrete imaging and rebar imaging contractor concrete xray contractor surface penetrating radar contractor ground sonar contractor g.p.r contractor utility locator contractor ground-penetrating-radar contractor ground penetrating contractor ground penetrating radar subcontractors gpr subcontractor ground radar subcontractor ground-penetrating radar subcontractor surface penetrating radar subcontractor gp radar subcontractor concrete x-ray subcontractor concrete xray subcontractor ground sonar subcontractor g.p.r subcontractor utility locator subcontractor ground-penetrating-radar subcontractor ground penetrating subcontractor concrete imaging and rebar imaging subcontractor surface penetrating radar subcontractor ground penetrating radar services gpr services ground radar services ground-penetrating radar services surface penetrating radar services gp radar services concrete x-ray services concrete xray services ground sonar services g.p.r services utility locator services ground-penetrating-radar services ground penetrating services concrete imaging and rebar imaging services surface penetrating radar services ground penetrating radar company gpr company ground radar company ground-penetrating radar company surface penetrating radar company gp radar company concrete x-ray company concrete xray company ground sonar company g.p.r company utility locator company ground-penetrating-radar company ground penetrating company concrete imaging and rebar imaging company surface penetrating radar company concrete x-ray companies concrete xray companies ground sonar companies g.p.r companies utility locator companies ground-penetrating-radar companies ground penetrating companies concrete imaging and rebar imaging companies surface penetrating radar companies ground penetrating radar companies gpr companies ground radar companies ground-penetrating radar companies surface penetrating radar companies gp radar companies Concrete X-ray Ground Penetrating Radar Ground Radar Surface Penetrating Radar G.P.R. [ GPR ] Concrete Imaging and Rebar Imaging Ground Penetrating Radar Ground Sonar Ground Penetrating Radar Companies new york city ny nyc long island nassau county suffolk county li l.i. connecticut ct new jersey nj brooklyn queens manhattan the bronx staten island ground penetrating radar contractors gpr contractor ground radar contractor ground-penetrating radar contractor surface penetrating radar contractor gp radar contractor concrete x-ray contractor concrete imaging and rebar imaging contractor concrete xray contractor surface penetrating radar contractor ground sonar contractor g.p.r contractor utility locator contractor ground-penetrating-radar contractor ground penetrating contractor ground penetrating radar subcontractors gpr subcontractor ground radar subcontractor ground-penetrating radar subcontractor surface penetrating radar subcontractor gp radar subcontractor concrete x-ray subcontractor concrete xray subcontractor ground sonar subcontractor g.p.r subcontractor utility locator subcontractor ground-penetrating-radar subcontractor ground penetrating subcontractor concrete imaging and rebar imaging subcontractor surface penetrating radar subcontractor ground penetrating radar services gpr services ground radar services ground-penetrating radar services surface penetrating radar services gp radar services concrete x-ray services concrete xray services ground sonar services g.p.r services utility locator services ground-penetrating-radar services ground penetrating services concrete imaging and rebar imaging services surface penetrating radar services ground penetrating radar company gpr company ground radar company ground-penetrating radar company surface penetrating radar company gp radar company concrete x-ray company concrete xray company ground sonar company g.p.r company utility locator company ground-penetrating-radar company ground penetrating company concrete imaging and rebar imaging company surface penetrating radar company concrete x-ray companies concrete xray companies ground sonar companies g.p.r companies utility locator companies ground-penetrating-radar companies ground penetrating companies concrete imaging and rebar imaging companies surface penetrating radar companies ground penetrating radar companies gpr companies ground radar companies ground-penetrating radar companies surface penetrating radar companies gp radar companies Concrete X-ray Ground Penetrating Radar Ground Radar Surface Penetrating Radar G.P.R. [ GPR ] Concrete Imaging and Rebar Imaging Ground Penetrating Radar Ground Sonar Ground Penetrating Radar Companies new york city ny nyc long island nassau county suffolk county li l.i. connecticut ct new jersey nj brooklyn queens manhattan the bronx staten island ground penetrating radar contractors gpr contractor ground radar contractor ground-penetrating radar contractor surface penetrating radar contractor gp radar contractor concrete x-ray contractor concrete imaging and rebar imaging contractor concrete xray contractor surface penetrating radar contractor ground sonar contractor g.p.r contractor utility locator contractor ground-penetrating-radar contractor ground penetrating contractor ground penetrating radar subcontractors gpr subcontractor ground radar subcontractor ground-penetrating radar subcontractor surface penetrating radar subcontractor gp radar subcontractor concrete x-ray subcontractor concrete xray subcontractor ground sonar subcontractor g.p.r subcontractor utility locator subcontractor ground-penetrating-radar subcontractor ground penetrating subcontractor concrete imaging and rebar imaging subcontractor surface penetrating radar subcontractor ground penetrating radar services gpr services ground radar services ground-penetrating radar services surface penetrating radar services gp radar services concrete x-ray services concrete xray services ground sonar services g.p.r services utility locator services ground-penetrating-radar services ground penetrating services concrete imaging and rebar imaging services surface penetrating radar services ground penetrating radar company gpr company ground radar company ground-penetrating radar company surface penetrating radar company gp radar company concrete x-ray company concrete xray company ground sonar company g.p.r company utility locator company ground-penetrating-radar company ground penetrating company concrete imaging and rebar imaging company surface penetrating radar company concrete x-ray companies concrete xray companies ground sonar companies g.p.r companies utility locator companies ground-penetrating-radar companies ground penetrating companies concrete imaging and rebar imaging companies surface penetrating radar companies ground penetrating radar companies gpr companies ground radar companies ground-penetrating radar companies surface penetrating radar companies gp radar companies Concrete X-ray Ground Penetrating Radar Ground Radar Surface Penetrating Radar G.P.R. [ GPR ] Concrete Imaging and Rebar Imaging Ground Penetrating Radar Ground Sonar Ground Penetrating Radar Companies

Concrete X-ray is the opposing technology to GPRS and Ground Penetrating Radar. The advantages of GPR over concrete x-ray are numerous.
Like concrete x-ray, GPR locates almost anything underground and can accurately and nondestructively see through solid materials. But concrete x-ray, like in hospitals, requires radiation. Concrete x-ray is an inefficient method for seeing through slabs. Concrete x-ray is also unable to look into the ground because a film must be placed on the opposite side of the material as the source. This that concrete x-ray is only able to look at supported slabs, or structures where both sides are accessible.
As an alternative to concrete x-ray, ground penetrating radar can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. Rather than concrete x-ray, GPR uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. GPR (and not concrete x-ray) also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
GPR (as opposed to concrete x-ray) is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. Ground penetrating radar (instead of concrete x-ray) also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When GPR (rather than concrete x-ray) is used on concrete, it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
As opposed to concrete x-ray, GPR technology works in a fast and reliable manner. It is also very safe and uses no radiation.An improvement over concrete x-ray, ground penetrating radar is able to provide a 2-dimensional and 3-dimensional image of the areas that are scanned.
Choose GPR over concrete x-ray. GPR is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow GPR would be used to locate pipes and utilities, and tanks and drums. Deep GPR would be used to determine bedrock depth and sinkhole locations.
Utilizing GPR instead of concrete x-ray takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing GPR rather than concrete x-ray, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object and the hassles and safety risk of concrete x-ray is avoided.
Ground Penetrating Radar locates almost anything underground and can accurately and nondestructively see through solid materials. Ground Penetrating Radar can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. Ground Penetrating Radar uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. Ground Penetrating Radar also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
Ground Penetrating Radar is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. Ground Penetrating Radar also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When Ground Penetrating Radar is used on concrete it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
Ground Penetrating Radar technology works in a fast and reliable manner. It is also very safe and uses no radiation. Ground Penetrating Radar is able to provide a 2-dimensional and 3-Dimensional image of the areas that are scanned.
Ground Penetrating Radar is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow ground penetrating radar would be used to locate pipes and utilities, and tanks and drums. Deep ground penetrating radar would be used to determine bedrock depth and sinkhole locations.
Utilizing ground penetrating radar takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing ground penetrating radar, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object.
Ground Radar locates almost anything underground and can accurately and nondestructively see through solid materials. Ground Radar can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. Ground Radar uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. Ground Radar also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
Ground Radar is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. Ground Radar also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When Ground Radar is used on concrete it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
Ground Radar technology works in a fast and reliable manner. It is also very safe and uses no radiation. Ground Radar is able to provide a 2-dimensional and 3-Dimensional image of the areas that are scanned.
Ground Radar is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow Ground Radar would be used to locate pipes and utilities, and tanks and drums. Deep Ground Radar would be used to determine bedrock depth and sinkhole locations.
Utilizing Ground Radar takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing Ground Radar, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object
Surface Penetrating Radar locates almost anything underground and can accurately and nondestructively see through solid materials. Surface Penetrating Radar can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. Surface Penetrating Radar uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. Surface Penetrating Radar also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
Surface Penetrating Radar is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. Surface Penetrating Radar also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When Surface Penetrating Radar is used on concrete it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
Surface Penetrating Radar technology works in a fast and reliable manner. It is also very safe and uses no radiation. Surface Penetrating Radar is able to provide a 2-dimensional and 3-Dimensional image of the areas that are scanned.
Surface Penetrating Radar is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow Surface Penetrating Radar would be used to locate pipes and utilities, and tanks and drums. Deep Surface Penetrating Radar would be used to determine bedrock depth and sinkhole locations.
Utilizing Surface Penetrating Radar takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing Surface Penetrating Radar, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object.
GPR locates almost anything underground and can accurately and nondestructively see through solid materials. GPR can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. GPR uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. GPR also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
GPR is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. GPR also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When GPR is used on concrete it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
GPR technology works in a fast and reliable manner. It is also very safe and uses no radiation. GPR is able to provide a 2-dimensional and 3-Dimensional image of the areas that are scanned.
GPR is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow GPR would be used to locate pipes and utilities, and tanks and drums. Deep GPR would be used to determine bedrock depth and sinkhole locations.
Utilizing GPR takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing GPR, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object.
Concrete imaging and rebar imaging allow for the non-destructive evaluation and detection of subsurface concrete structures and the detection of embedded steel bars commonly known as rebars. Rebars are routinely used in concrete and masonry work as steel reinforcements. As more and more contractors, builders and concrete sawing and drilling companies require concrete and rebar detection before work starts, so enters the technology of concrete imaging and rebar imaging.
The equipment for concrete imaging and rebar imaging is more compact compared to other subsurface radars seeking out various applications. The sizes of the scans are normally 2x2 or 4x4 in 3-D and the processing takes 30-minutes and that includes data collection. An important feature in concrete imaging and rebar imaging is that they require shorter wavelengths and lower frequencies which allow using scanners with smaller transmitters and antennas.
Concrete imaging and rebar imaging can be used in the design phase as well as the construction phase of a project. Utilizing concrete imaging and rebar imaging during the construction phase of a project will prevent needless damages, disruption of services and injuries to workers. Another important benefit in using concrete imaging and rebar imaging enables the engineer or contractor to receive accurate information which will prevent costly change orders.
Concrete imaging and rebar imaging is better interpreted by using a trained GPR technician as well as a construction professional. Working together, the technician and field contact can interpret more correctly. For instance, in concrete imaging most of the time you can spot a rebar pattern, which is quite regular in space at a reliable depth. Usually patterns such as the preceding denote a rebar. If you find a dissimilar pattern then it is assumed not to be a rebar. That assumption could mean the pattern is a void, which is an area of concrete that has eroded away or it could be a pattern of post-tension cables, embedded in concrete, or conduits - from electrically charged power lines, to network cables, phone or sewer lines.
Concrete imaging and rebar imaging is important to use before any type of subsurface and construction work commences.
Concrete imaging and rebar imaging allow for the non-destructive evaluation and detection of subsurface concrete structures and the detection of embedded steel bars commonly known as rebars. Rebars are routinely used in concrete and masonry work as steel reinforcements. As more and more contractors, builders and concrete sawing and drilling companies require concrete and rebar detection before work starts, so enters the technology of concrete imaging and rebar imaging.
The equipment for concrete imaging and rebar imaging is more compact compared to other subsurface radars seeking out various applications. The sizes of the scans are normally 2x2 or 4x4 in 3-D and the processing takes 30-minutes and that includes data collection. An important feature in concrete imaging and rebar imaging is that they require shorter wavelengths and lower frequencies which allow using scanners with smaller transmitters and antennas.
Concrete imaging and rebar imaging can be used in the design phase as well as the construction phase of a project. Utilizing concrete imaging and rebar imaging during the construction phase of a project will prevent needless damages, disruption of services and injuries to workers. Another important benefit in using concrete imaging and rebar imaging enables the engineer or contractor to receive accurate information which will prevent costly change orders.
Concrete imaging and rebar imaging is better interpreted by using a trained GPR technician as well as a construction professional. Working together, the technician and field contact can interpret more correctly. For instance, in concrete imaging most of the time you can spot a rebar pattern, which is quite regular in space at a reliable depth. Usually patterns such as the preceding denote a rebar. If you find a dissimilar pattern then it is assumed not to be a rebar. That assumption could mean the pattern is a void, which is an area of concrete that has eroded away or it could be a pattern of post-tension cables, embedded in concrete, or conduits - from electrically charged power lines, to network cables, phone or sewer lines.
Concrete imaging and rebar imaging is important to use before any type of subsurface and construction work commences.
Concrete X-ray is the opposing technology to GPRS and Ground Penetrating Radar. The advantages of GPR over concrete x-ray are numerous.
Like concrete x-ray, GPR locates almost anything underground and can accurately and nondestructively see through solid materials. But concrete x-ray, like in hospitals, requires radiation. Concrete x-ray is an inefficient method for seeing through slabs. Concrete x-ray is also unable to look into the ground because a film must be placed on the opposite side of the material as the source. This that concrete x-ray is only able to look at supported slabs, or structures where both sides are accessible.
As an alternative to concrete x-ray, ground penetrating radar can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. Rather than concrete x-ray, GPR uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. GPR (and not concrete x-ray) also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
GPR (as opposed to concrete x-ray) is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. Ground penetrating radar (instead of concrete x-ray) also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When GPR (rather than concrete x-ray) is used on concrete, it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
As opposed to concrete x-ray, GPR technology works in a fast and reliable manner. It is also very safe and uses no radiation.An improvement over concrete x-ray, ground penetrating radar is able to provide a 2-dimensional and 3-dimensional image of the areas that are scanned.
Choose GPR over concrete x-ray. GPR is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow GPR would be used to locate pipes and utilities, and tanks and drums. Deep GPR would be used to determine bedrock depth and sinkhole locations.
Utilizing GPR instead of concrete x-ray takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing GPR rather than concrete x-ray, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object and the hassles and safety risk of concrete x-ray is avoided.
Ground Penetrating Radar locates almost anything underground and can accurately and nondestructively see through solid materials. Ground Penetrating Radar can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. Ground Penetrating Radar uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. Ground Penetrating Radar also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
Ground Penetrating Radar is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. Ground Penetrating Radar also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When Ground Penetrating Radar is used on concrete it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
Ground Penetrating Radar technology works in a fast and reliable manner. It is also very safe and uses no radiation. Ground Penetrating Radar is able to provide a 2-dimensional and 3-Dimensional image of the areas that are scanned.
Ground Penetrating Radar is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow ground penetrating radar would be used to locate pipes and utilities, and tanks and drums. Deep ground penetrating radar would be used to determine bedrock depth and sinkhole locations.
Utilizing ground penetrating radar takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing ground penetrating radar, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object.
Ground Radar locates almost anything underground and can accurately and nondestructively see through solid materials. Ground Radar can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. Ground Radar uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. Ground Radar also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
Ground Radar is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. Ground Radar also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When Ground Radar is used on concrete it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
Ground Radar technology works in a fast and reliable manner. It is also very safe and uses no radiation. Ground Radar is able to provide a 2-dimensional and 3-Dimensional image of the areas that are scanned.
Ground Radar is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow Ground Radar would be used to locate pipes and utilities, and tanks and drums. Deep Ground Radar would be used to determine bedrock depth and sinkhole locations.
Utilizing Ground Radar takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing Ground Radar, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object
Surface Penetrating Radar locates almost anything underground and can accurately and nondestructively see through solid materials. Surface Penetrating Radar can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. Surface Penetrating Radar uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. Surface Penetrating Radar also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
Surface Penetrating Radar is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. Surface Penetrating Radar also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When Surface Penetrating Radar is used on concrete it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
Surface Penetrating Radar technology works in a fast and reliable manner. It is also very safe and uses no radiation. Surface Penetrating Radar is able to provide a 2-dimensional and 3-Dimensional image of the areas that are scanned.
Surface Penetrating Radar is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow Surface Penetrating Radar would be used to locate pipes and utilities, and tanks and drums. Deep Surface Penetrating Radar would be used to determine bedrock depth and sinkhole locations.
Utilizing Surface Penetrating Radar takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing Surface Penetrating Radar, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object.
GPR locates almost anything underground and can accurately and nondestructively see through solid materials. GPR can see through asphalt and concrete to detect subsurface objects and determine the condition and thickness of the material examined. GPR uses a noninvasive electromagnetic geophysical technique which has the highest resolution of any geophysical method. GPR also uses scattering to image, locate and measure spot changes in the ground. Scattering results when an electromagnetic wave locates a change in electrical or magnetic subsurface material.
GPR is an excellent way to locate underground utilities, underground concrete and any number of other underground applications. GPR also enables the technician to locate piping, conduit and sewers to a depth of ten feet. When GPR is used on concrete it can reveal joint spacing, locations of reinforcements and full-depth asphalt patches.
GPR technology works in a fast and reliable manner. It is also very safe and uses no radiation. GPR is able to provide a 2-dimensional and 3-Dimensional image of the areas that are scanned.
GPR is available for shallow ground penetrating surveys or deep ground penetrating surveys. Shallow GPR would be used to locate pipes and utilities, and tanks and drums. Deep GPR would be used to determine bedrock depth and sinkhole locations.
Utilizing GPR takes a heavy burden off the shoulders of contractors, utility workers and anyone who needs to conduct subsurface work. By utilizing GPR, subsurface drilling is conducted with less worry of cutting or drilling into an embedded object.
Concrete imaging and rebar imaging allow for the non-destructive evaluation and detection of subsurface concrete structures and the detection of embedded steel bars commonly known as rebars. Rebars are routinely used in concrete and masonry work as steel reinforcements. As more and more contractors, builders and concrete sawing and drilling companies require concrete and rebar detection before work starts, so enters the technology of concrete imaging and rebar imaging.
The equipment for concrete imaging and rebar imaging is more compact compared to other subsurface radars seeking out various applications. The sizes of the scans are normally 2x2 or 4x4 in 3-D and the processing takes 30-minutes and that includes data collection. An important feature in concrete imaging and rebar imaging is that they require shorter wavelengths and lower frequencies which allow using scanners with smaller transmitters and antennas.
Concrete imaging and rebar imaging can be used in the design phase as well as the construction phase of a project. Utilizing concrete imaging and rebar imaging during the construction phase of a project will prevent needless damages, disruption of services and injuries to workers. Another important benefit in using concrete imaging and rebar imaging enables the engineer or contractor to receive accurate information which will prevent costly change orders.
Concrete imaging and rebar imaging is better interpreted by using a trained GPR technician as well as a construction professional. Working together, the technician and field contact can interpret more correctly. For instance, in concrete imaging most of the time you can spot a rebar pattern, which is quite regular in space at a reliable depth. Usually patterns such as the preceding denote a rebar. If you find a dissimilar pattern then it is assumed not to be a rebar. That assumption could mean the pattern is a void, which is an area of concrete that has eroded away or it could be a pattern of post-tension cables, embedded in concrete, or conduits - from electrically charged power lines, to network cables, phone or sewer lines.
Concrete imaging and rebar imaging is important to use before any type of subsurface and construction work commences.
Concrete imaging and rebar imaging allow for the non-destructive evaluation and detection of subsurface concrete structures and the detection of embedded steel bars commonly known as rebars. Rebars are routinely used in concrete and masonry work as steel reinforcements. As more and more contractors, builders and concrete sawing and drilling companies require concrete and rebar detection before work starts, so enters the technology of concrete imaging and rebar imaging.
The equipment for concrete imaging and rebar imaging is more compact compared to other subsurface radars seeking out various applications. The sizes of the scans are normally 2x2 or 4x4 in 3-D and the processing takes 30-minutes and that includes data collection. An important feature in concrete imaging and rebar imaging is that they require shorter wavelengths and lower frequencies which allow using scanners with smaller transmitters and antennas.
Concrete imaging and rebar imaging can be used in the design phase as well as the construction phase of a project. Utilizing concrete imaging and rebar imaging during the construction phase of a project will prevent needless damages, disruption of services and injuries to workers. Another important benefit in using concrete imaging and rebar imaging enables the engineer or contractor to receive accurate information which will prevent costly change orders.
Concrete imaging and rebar imaging is better interpreted by using a trained GPR technician as well as a construction professional. Working together, the technician and field contact can interpret more correctly. For instance, in concrete imaging most of the time you can spot a rebar pattern, which is quite regular in space at a reliable depth. Usually patterns such as the preceding denote a rebar. If you find a dissimilar pattern then it is assumed not to be a rebar. That assumption could mean the pattern is a void, which is an area of concrete that has eroded away or it could be a pattern of post-tension cables, embedded in concrete, or conduits - from electrically charged power lines, to network cables, phone or sewer lines.
Concrete imaging and rebar imaging is important to use before any type of subsurface and construction work commences.

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