TISEC delivers Practical Pattern Recognition Workshop for NDT in Montreal, Canada, June 28-30, 2010
TISEC's ASTIA™ Above-ground Storage Tank Inspection and Assessment goes live, March 2010.
Level III UT Training course completed in State College, PA, March 2010.
WINS presents talk on ultrasonic guided wave potential towards helicopter maintenance to Indian Air force, February 2010.
WINS funded by Transportation Research Board to develop Bridge Cable Inspection Technology, February 2010.
Watch video of Wireless Acoustic Emission Sensor Network for Bridge Structural Health Monitoring.
2010 NDT Training Course Schedule is available now!
New look of TISEC's Super ICEPak® web site, November 2009.
Download and try out TISEC's Super ICEPak® today, contact TISEC for a trial key, November 2009.
New Brunswick DOT has awarded TISEC to inspect LRUT bridge cables on 3 cable-stay bridges using new MsS system, November 2009.
WavesInSolids acquires state-of-the-art equipment for enhanced Guided Wave Inspection Services for Pipelines and Bridge Cables, November 2009.
WavesInSolids delivers Acoustic Emission Level III Training Course in Kuala Lumpur, Malaysia, October 5-9, 2009
WavesInSolids is awarded contract with U.S. Department of Energy for developing inspection technology for health monitoring of coal power plant components, August 2009
WavesInSolids presents a paper at NYC Bridge Conference titled "Structural health monitoring using wireless acoustic emission sensor network" in August, 2009
WavesInSolids is awarded contract with NSF for developing inspection technology for Steel Piles, July 2009
WavesInSolids presents "Acoustic emission input to inspection- based bridge maintenance" at theInternational Conference on Fracture & Fatigue in July, 2009
Guided Wave Pipeline Inspection System
TISEC specializes in the nondestructive testing of pipelines with long-range ultrasound. Under ideal conditions, the technology may be used to inspect up to 1000 feet (300 meters) of pipe from a single sensor position or up to 4000 feet (1.2 km) in one day. The actual inspection range depends on the type of pipe coating, degree of corrosion present in the pipeline, number of elbows, and whether or not the pipe is aboveground or underground. The technology may be applied to thin- and thick-walled pipe, with diameters ranging from 1" to 60", rapidly and economically. Use reliable engineering data to assess exactly where your pipeline needs follow-up nondestructive or visual inspection.
Download Brochure
Benefits include:
- Rapid screening of long lengths of pipe
- 100% of pipe wall is inspected
- Detection of corrosion in insulated and buried pipelines
How it Works
- The sensor is installed on the outer diameter (OD) of the pipeline.
- Long-range ultrasound is focused upstream and then downstream.
- Ultrasound is reflected back from pipeline corrosion.
- Corrosion is located with respect to the sensor location using the speed of sound in the pipeline tested.
- Corrosion severity is estimated in terms of cross-sectional area loss.
- Automatic report generation with reflector characterization and location.
Inspection Applications
- Transmission/distribution lines
- Refinery lines
- Offshore risers
- Tank farm lines
- Headers
- Storage sphere support legs
- Refrigeration lines
- Corrosion under insulation (CUI)
- Underground pipelines
- Pipelines under road crossings