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There are almost as many NDT & Inspection techniques as there are defect types and for every technique there are countless beliefs (and many misconceptions) regarding their capability and validity.
But the fact of the matter is that every technique (and every product variant) has limitations.
However, most techniques are effective if used appropriately for what they are intended and many are continuously improving through technology advancement and increased awareness of their suitability.
As an among the biggest provider of NDT & Inspection services with 25 years continuous trading experience and a team of people who have a great deal of experience with most inspection methods and their benefits and limitations.
Designed to meet the requirements of API 653, TNDTís Aboveground Storage Tank (AST) Program gives you a detailed assessment of the condition of your tanks. Our program offers Magnetic Flux Leakage (MFL) technology for the rapid detection of floor plate corrosion. Ultrasonic Thickness Measurement (UTM) methods used to quantify the corrosion damage, and analysis of corrosion areas.
Shell and roof thickness can be measured with manual UTM by qualified rope access personnel. It also provides an automatic calculation of a safe fill height for the tank.
Tank settlement and localized depression/bulging is assessed in accordance with Appendix B of API 653 utilizing a laser transit system. Our complete reports typically incorporate CAD drawings of the floor, shell, and roof, along with the actual inspection data and applicable calculations for corrosion rates and estimated service life of the tanks.
The Solus X-ray crawler is a self contained, battery powered system for the radiography of pipelines from 12 inch to 72 inch diameter.
Construction is based on integrated, modular sub units, which are assembled into 4 basic configurations to cover the wide range of pipe diameters.
The crawler is controlled from outside the pipe by a small radioactive source.
External controls have been reduced to a minimum, but a range of internal settings allows the crawler to be precisely tailored to each pipeline.
The crawler utilizes the latest microprocessor technology giving enhanced, consistent performance, a high level of reliability and making it extremely easy to use.
Developed with Safety as the main objective it enables radiography to be carried out with radiation levels ALARP (As Law As Reasonably Practicable). SCAR has quite simply set a precedent far safer working in the industry that others aspire to follow.
The system is capable of performing radiography inside a controlled area erected in the heart of the workplace, without disruption to normal operations. The reduction of unwanted radiation scattering effects around the film by effective photoelectric absorption has an additional benefit of improving radiograph quality.
The rugged and dependable Everest XLG3TM VideoProbe® system is an advanced video based flexible borescope used for remote visual inspection.
Working through access passages, the XLG3 system delivers high-resolution images of internal details of turbine engines, airframes, automotive engines, piping, vessels, wind? turbine gear boxes, underwater structures, etc.
The probe's fiberoptic bundle illuminates the inspection area with light generated by a 75-watt high-intensity discharge (HID) arc lamp in the base unit. At the end of the probe, a miniature camera assembly converts the image into an electronic image, and sends it back through the probe. The system displays the image on the handset. No focusing is required, because the XLG3 system contains a fixed-focus optical system with a large depth of field. With measurement devices, we can measure defects and features.
The XLi offer analytical performance and testing speed that is unsurpassed in the industry, providing precise analysis at greater than three times the speed of our older systems or any other competitive products.
Instruments are equipped with a Hitachi SH4 CPU and an advanced ASICS high speed digital signal processor (DSP) providing unmatched speed and precision on even the most difficult alloy separations. Typical grade identification and chemistry verification is only 3-5 seconds with this system.
Signature ID and Pass/Fail analysis takes only 1-2seconds. There is absolutely no faster way to identify or sort mixed alloy material.
API Recommended Practice 578, Material Verification Program for New and Existing Alloy Piping Systems from the American Petroleum Institute.
PMI is an integral part of process safety management in the petroleum refining and petrochemical industries.
Haskelís Test Pac are rugged, portable, lightweight test rings, designed for shop floor and on site pressure testing in applications of pressure testing proof/failure, post preloading/bolt tensioning, valve actuators and torque wrench.
Ability to stall at any predetermined pressure and holds this fixed pressure without consuming power or generation heat. No heat, flame or risk of spark.
Infinitely variable cycling speed (flow rate). No limit or adverse effect to continuous stop/start applications. Reliable and portable configuration.