NDT (Non Destructive Testing)
NDT - Visual Testing (VT) | Visual testing is the observation of a test object or specimen, either directly with the eyes, or indirectly by utilising optical instruments, by an inspector or technician to evaluate the presence of surface anomalies, or an object's conformance to a specification. Visual examination is the most basic non-destructive testing method, which precedes and is used in conjunction with any other NDT method. Visual inspection is a method that ranges from simply looking at a part to see if surface imperfections or defects are present and visible, to using video inspection systems and small diameter bore scopes to reach into areas with limited access. The portable video scopes combines light weight with reliability and ease of use with advanced features to allow inspections in various positions and conditions. |
NDT - Ultrasonic Testing (UT) | Productivity and quality are the buzz words in quality control and in-service inspection and ultrasonic non-destructive testing (NDT) is certainly the answer. Ultrasonic technology is used to measure wall thickness, detect hidden cracks and other anomalies affecting structural integrity. The wide use of ultrasonic for the non-destructive testing of construction components and material has increased the importance of the method for industrial quality control. In ultrasonic testing, high frequency sound waves ranging from 10MHz-1MHz are transmitted into a material to detect surface and subsurface discontinuities.
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NDT - Magnetic Particle Testing (MT) | Magnetic particle testing is a widely established non destructive method for the detection of surface breaking flaws as well as sub-surface flaws with depths of 2-3mm. The method is accomplished by inducing a magnetic field in ferromagnetic materials. The surface is coated with a white contrast paint and over this paint iron particles suspended in liquid are applied. Surface and near surface flaws produce magnetic poles and iron particles are attracted and concentrated, producing a visible indication of the defects on the surface of the material. The length of an indication can be accurately determined, but the depth cannot be determined with this method. |
NDT - Liquid Penetrant Testing (PT) | Liquid penetrant testing is a traditional non-destructive method for inspection of surface breaking flaws such as cracks and porosity in test objects with non-porous surfaces. The tested surface is cleaned and coated with a penetrant solution either a visible or fluorescent dye that is drawn into the discontinuity by capillary action. The excess solution is removed from the surface, but the penetrant remains in the surface breaking flaws. A white developer is then applied to draw the penetrant out of the defects and shows a contrast image. After the evaluation of the indications the surface is cleaned. Liquid penetrant testing can be used on relatively dirty surfaces, but the sensitivity is decreased, but a fluorescent penetrant can also be used that gives increased sensitivity. The length of an indication can be accurately determined, but the depth cannot be determined with this method. |
NDT - Hardness Testing (HT) | Mobile hardness testing is on the advance, as it represents a quick, economical and dependable way to measure hardness. Hardness testing is understood as the resistance of a material against the vertical penetration of a body by a material of greater hardness. The hardness of a material is determined by forcing an indenter into the surface of the material under load and then measuring the indentation size, or the backward bounce speed and distance of the plunger applied. There are three principal standard test methods for expressing the relationship between hardness and the size of the impression, these being Brinell, Vickers, and Rockwell. |
NDT - Positive Material Identification (PMI) | The portable scientific analyzers use as principle of operation XRF spectrometry (X-Ray Fluorescence), and are engineered for quick a qualitative and quantitative analysis of alloys, geological and environmental samples. This method is non destructive and fast, allows the analysis of many elements simultaneously, and is applied for a range of concentrations. Analyzers rapidly determine those elements present in the sample and their relative concentrations - in other words, the elemental chemistry of the sample. For samples with known ranges of chemical composition, such as common grades of metal alloys, the analyzer also identifies most sample types by name, typically in seconds. |
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