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The examination of the finished radiograph should be made under conditions that favor the best visibility of detail combined with a maximum of comfort and a minimum of fatigue for the observer.

Is a non-destructive test method that utilizes sound waves to detect cracks and defects in parts and materials. It can also be used to determine a material's thickness, such as measuring the wall thickness of a pipe.

Is an advanced method of ultrasonic testing and can be used for a multitude of different inspection tasks. ... This technique is used to detect flaws that cannot be easily found with conventional non-destructive testing methods such as radiography and manual ultrasonic testing.

Is a non-destructive testing method that can detect surface and subsurface flaws in ferromagnetic materials. Magnetic particle inspection is often carried out to help determine an item's fitness for use or conformity.

Is widely used to detect surface breaking flaws. This non-destructive testing technique, also known as liquid penetrant inspection (LPI), is a cost-effective method used to locate surface breaking flaws such as cracks, porosity, laps, seams and other surface discontinuities

Is a fast and non-destructive testing (NDT) method for verifying the chemical composition of metals and alloys. PMI can be used to verify that supplied materials conform to the proper standards and specifications.

Enables you to evaluate the strength, ductility and wear resistance of a material, which can determine whether a material is suitable for the purpose you require. The hardness of a metallic material can be defined as its resistance to plastic deformation caused by a force applied through an indenter.

The simplest form, visual inspection is the process of examining a component or piece of equipment using one's naked eye to look for flaws. Optical aids such as illuminators, mirrors, borescopes, etc. Visual inspection is simple and less technologically advanced compared to other methods.

Is used to determine the air-tight integrity of a prevacuum autoclave's chamber and plumbing system. This test exposes the autoclave's plumbing and components to vacuum conditions and measures how much vacuum depth was lost over a given period of time.

• ET, PSEC, RFT, NFT technique

• ET-Technique using rotating sensors

IRIS rotating ultrasonic technique 

• SLOFEC® Tank Floor Testing

• SLOFEC®  Tank Wall Testing with

Magnetic Crawler Tools

• UT - Tank Wall Testing with Magnetic Crawler Tools

• CRIS® Surface Crack Testing of Corner and Plate to Plate Welds

UT -Phased-Array Testing of Tank Floors and Tank Walls (man.& mech.) 

• SLOFEC® Pipe Testing

• CRIS®  Surface Crack Testing of Girth and Seam Welds

• Laser Defect Profile Determination

UT - Phased-Array Testing of Straight Pipe Sections and Elbows 

• SLOFEC® - Pipe Wall Inspection

• Laser Pipe Ovality Determination

• Laser Defect Profile Determination

• Visual Camera Inspection

Propulsion by motor-driven Crawler Tools, by Compressed Air, by Medium or Pulling Winch 

• ET – Crack Testing

(ec sensor array for maximal covrerage of the tube circumference)

• Laser – Tube Diameter Testing for Creeping Detection

(6 laser spaced 60° on the tube circumference)

Self-driving Scanner for Reformer Pipe Inspection from the Outer Tube Surface

Rotating Tool for Reformer Pipe Inspection from the Inner Tube Surface 

Inspections with Remote and Computer Controlled Testing Machines

· NPP Reactor Bolts

· NPP Reactor Threaded Holes

NPP Heat Exchanger Tubes 

Uses a unique 2D matrix array architecture to produce a transducer module (TRM) with 16,384 elements and an active aperture of 32x32mm. This provides unparalleled data capture and resolution, which, when combined with our frequency range from 0.7MHz to 10MHz, gives you the ability to inspect a wide range of materials.