UT-Thickness
Ultrasonic Thickness Survey is used throughout the world for assessing the condition of pipes, tanks, pressure vessels and other wall thicknesses. A digital or analog measuring device is used for gathering the ultrasonic thickness of the base material. These thicknesses are usually placed in a data management program such as UltraPipe or PCMS. A thickness gauge is calibrated to a standard of similar acoustical velocity of the material to be examined. Thicknesses are then taken from areas that corrode or erode.
UT-Shearwave
Ultrasonic Shearwave Examinations are used for locating and assessing material thickness and sub-surface weld quality. Crack detection in materials also gives data such as length and depth better than any other method aside from PAUT. This data can be sent electronically to the engineering team in simple report form or actual screen shots of the flaws A-scan signature.
UT-Phased Array
Phased Array Ultrasonic Examination is a technique using multiple shearwave beams firing at different angles to scrutinize welding, materials, and corrosion mapping. The data acquired is converted into a visual display of weld flaws, cross section views of material wall loss, and show internal flaws within materials. In most cases this method replaces Radiography. The data acquisition is faster and safer than radiography and can detect smaller and more difficult flaws. When an encoder is used welds are completely inspected from end to end with a complete report ready almost instantly. Vessel and tank shells can be scanned for corrosion and laminations accurately and autonomously with 100% coverage within the area of interest.
Learn More >
Ultrasonic Thickness Survey is used throughout the world for assessing the condition of pipes, tanks, pressure vessels and other wall thicknesses. A digital or analog measuring device is used for gathering the ultrasonic thickness of the base material. These thicknesses are usually placed in a data management program such as UltraPipe or PCMS. A thickness gauge is calibrated to a standard of similar acoustical velocity of the material to be examined. Thicknesses are then taken from areas that corrode or erode.
UT-Shearwave
Ultrasonic Shearwave Examinations are used for locating and assessing material thickness and sub-surface weld quality. Crack detection in materials also gives data such as length and depth better than any other method aside from PAUT. This data can be sent electronically to the engineering team in simple report form or actual screen shots of the flaws A-scan signature.
UT-Phased Array
Phased Array Ultrasonic Examination is a technique using multiple shearwave beams firing at different angles to scrutinize welding, materials, and corrosion mapping. The data acquired is converted into a visual display of weld flaws, cross section views of material wall loss, and show internal flaws within materials. In most cases this method replaces Radiography. The data acquisition is faster and safer than radiography and can detect smaller and more difficult flaws. When an encoder is used welds are completely inspected from end to end with a complete report ready almost instantly. Vessel and tank shells can be scanned for corrosion and laminations accurately and autonomously with 100% coverage within the area of interest.
Learn More >
Advanced Corrosion Detection & Mapping
Using cutting-edge technology called Total Focus Method, or TFM, we're able to use sound waves just within a specified area or box. This allows for greater detail and actual orientation of flaws or defects within a part. This method requires the use of specialized software to achieve the resolution and over all detection only TFM can achieve.
Learn more about our cutting-edge advanced corrosion mapping technique in the file below:
Using cutting-edge technology called Total Focus Method, or TFM, we're able to use sound waves just within a specified area or box. This allows for greater detail and actual orientation of flaws or defects within a part. This method requires the use of specialized software to achieve the resolution and over all detection only TFM can achieve.
Learn more about our cutting-edge advanced corrosion mapping technique in the file below:
Accuracy Inspection TFM | |
File Size: | 620 kb |
File Type: | docx |
Dry and Wet Magnetic Particle
Magnetic Particle Examination is a very effective method for picking up surface and shallow subsurface discontinuities on ferrous material.
Liquid Dye Penetrant
Liquid Penetrant Examination is an excellent method used for locating discontinuities that are open to the surface. This examination can be used on ferrous material or nonferrous material.
Visual Testing
Visual testing is probably the most important type of examination in the Non-Destructive Examination field it is performed on piping and fixed equipment for external and internal inspections.
Additional Services
Magnetic Particle Examination is a very effective method for picking up surface and shallow subsurface discontinuities on ferrous material.
Liquid Dye Penetrant
Liquid Penetrant Examination is an excellent method used for locating discontinuities that are open to the surface. This examination can be used on ferrous material or nonferrous material.
Visual Testing
Visual testing is probably the most important type of examination in the Non-Destructive Examination field it is performed on piping and fixed equipment for external and internal inspections.
Additional Services
- Hardness Testing
- Leak Testing
- Eddy Current
- Ferrite Testing
- MFE Testing
- Vacuum Box Testing
- Field Metal Replications
- Positive Material Identification (PMI)
- Remote Video Monitoring (Borescope)