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NDT.net Issue - 2014-07 - NEWS
NDT.net Issue: 2014-07
Publication: e-Journal of Nondestructive Testing (NDT) ISSN 1435-4934 (NDT.net Journal)

High voltage CT system advances inspection of automotive turbochargers

Nikon Metrology, Inc.11, Brighton, MI, USA

Computed Tomography transforms automotive turbocharger R&D at BorgWarner by non-destructively inspecting components and assemblies

May 16, 2014 - Brighton, MI - A microfocus computed tomography (CT) system from Nikon Borg Warner operatorMetrology is being used by BorgWarner Poland to improve research and development of turbochargers for passenger cars, light trucks and commercial vehicles. The high power (450 kV) X-ray equipment is able to penetrate the dense materials used in turbocharger production, allowing the internal material quality of castings to be checked non-destructively and the integrity of welded assemblies to be inspected. In addition, dimensional data for specific components is acquired more quickly than is possible with a coordinate measuring machine (CMM), both from external and internal dimensions.

With Euro 6 emissions regulations due to take effect in Europe in 2014, which will further cut the amount of harmful gases and particulates allowed in a vehicle’s exhaust, manufacturers of engines and their suppliers are deploying ever more advanced technology in the design and development of air management systems. The goal is not only to reduce pollution, but also to improve fuel economy and enhance vehicle performance.

BorgWarner’s three production plants on the Podkarpacki Science and Technology Park in the Rzeszów area of Southern Poland includes a production facility constructed in 2009 with the capacity to produce more than one million turbochargers annually. They are used in petrol and diesel engine cars built throughout Western and Eastern Europe. A new Technical Centre recently opened on the same campus, to serve BWTS turbocharger production by providing application engineering and design, simulation, testing and validation as well as material analysis. This development significantly broadened US owned BorgWarner’s engineering, research and development capabilities within Europe.

Combined NDT defect analysis and dimensional inspection

It is in the new Technical Centre in Poland that the Nikon Metrology XT H 450 microfocus CT system was installed in February 2014. Łukasz Krawczyk, Team Leader / Material Laboratory Manager, said, “We buy in our turbocharger parts, ranging in size from aluminium compressor discs to stainless steel or cast iron housings, from a number of different sources.

“Before we put an assembled turbocharger onto an engine emulator for endurance and thermo-mechanical testing, we need to check the quality of the individual components and sub-assemblies.

Previously we did this by sectioning sample castings and machined prototypes and checking them on a CMM.

But that meant we were wasting valuable prototype or pre-series components. Additionally, the parts we were testing were representative examples from the same batch, rather than the ones we actually inspected, which were of course destroyed.

CT reveals voids in castings
Now we know that the components under test are only the ones we inspected dimensionally and, in the case of castings, for the presence of porosities or inclusions as well.”

Overall, much more information is available than previously, enabling more rigorous analysis, and money is saved as parts can be reused for further tests. Software enables correlation of any inspected volume against a CAD model, or a master sample, either via direct comparison or through GD&T (geometric dimensioning and tolerancing) measurements.

In castings, for example, it is possible to ascertain the location and size of a void or crack emanating from it and determine the likely cause of the fault and whether it is due to the type or quality of the material or the component design.

Also a bearing assembly can be X-rayed to check that all components are present, avoiding the cost of dismantling. The electron beam weld that joins the impeller to the shaft can be inspected to check for porosity and mechanical integrity, a job that is impossible to do visually.

Mr Krawczyk said that CT has become much more widely accepted of late as an inspection technology and is so flexible that they use it wherever possible in preference to CMMs and other metrology equipment on site.

Selection of the CT system

Five potential suppliers of high power CT systems were reviewed by Mr Krawczyk and his team. The Nikon Metrology 450 kV microfocus system was selected, as it had an ideal specification for BorgWarner’s applications, producing a higher level of image detail for more comprehensive analysis and measurements.

It was also best value for money, bearing in mind that both a flat panel detector and a curved linear diode array (CLDA) were included in a single system, whereas other vendors were offering either one or the other. It is easy to swap between detectors to suit the level of resolution required and the material being inspected.

A flat panel is best for obtaining an image of a complete component and is the preferred mode for scanning quickly to detect defects. CLDA, on the other hand, takes a one-dimensional section image to build a more detailed picture of a part. This technique is ideal for preventing X-ray beam scatter when dealing with denser materials such as those used for turbine housings. The latter mode is also used for metrology, due to the high level of detail generated.

There is another cost-saving aspect to using the XT H 450. The price of filaments is low and they can be exchanged by the machine operator, without having to call in a service technician, lowering expenditure on maintenance. Mr Krawczyk also points to excellent service from the equipment producer, with rapid response to technical issues and requests for advice.

Background to CT and the Nikon Metrology XT H 450

Today’s manufacturers face ever shorter lead-times for introducing new products at lower cost and the number of prototype iterations is consequently fewer. Destructive testing is no longer wanted, as a multitude of tests need to be carried out on a single prototype. Tactile or scanning CMM inspections provide dimensional insight of outer dimensions but can only investigate complex internal structures if the sample is cut or disassembled. CT offers a solution that is easy to use, fast and provides detailed insight for dimensional, material structure and assembly inspection, resulting in faster problem solving and more effective decision making.

CT is fundamentally a simple process. An object is placed on a rotating stage between an X-ray source and a detector, which acquires simple 2D radiographic images of the object as it rotates. After the object has turned through 360 degrees, the 2D X-ray images are reconstructed into a 3D volumetric map of the object. Each element is a 3D pixel (voxel) which has a discrete location and a density. Not only is external surface information acquired, as with a 3D point cloud from laser scanning, but data on internal surfaces is also revealed and by mapping the density, information is provided on what is between the surfaces.

The X-ray tube is at the core of a CT system. Several different open or closed tube designs exist, but essentially an X-ray source consists of a cylinder in which there is a filament (similar to a light bulb) at one end, together with a high voltage cathode and anode, a magnetic lens and a metal target, normally tungsten. Nikon Metrology provides in-house designed, open tube sources that allow the filament to be replaced regularly, resulting in lower cost of ownership compared with closed tube sources, which are replaced at considerable expensive when they fail.

A current is applied to the filament, which causes it to heat up and emit electrons. The electrons are repelled by the cathode and attracted to the anode by the high voltage field, which accelerates the electrons up to 80 per cent of the speed of light toward the end of the tube. Before they leave it, the electron beam is focused onto the target material using an electromagnetic lens. The electrons slam into the target and 99 per cent of the energy is expended in heating it.

Less than one percent produces X-rays that are generated in a cone beam from the target. The higher the voltage applied, the more energy is in the beam, and consequently the more power is transferred to the target, the larger the spot size and the more X-ray power is produced.

A limitation of CT in industrial applications is that high material density, especially of metals, attenuates the X-rays more. Many system suppliers only offer microfocus sources up to 225kV, while their more powerful sources are mini-focus, producing more X-ray flux but with a spot size an order of magnitude larger, reducing the accuracy of the data collected. A microfocus source is needed to acquire accurate and detailed CT data for most high-accuracy industrial CT applications.

The Nikon Metrology XT H 450 delivers 450W of continuous power, without any restriction on measurement time, whilst maintaining a small spot size of 50 to 113 microns and delivering a scatter-free CT volume with 25-micron repeatability and accuracy. Samples weighing up to 100kg can be inspected within a 400 x 600 x 600 mm working envelope, providing a combination of 3D NDT defect analysis and dimensional inspection in a single, highly productive facility.

Nikon Metrology offers the broadest range of metrology solutions for applications ranging from miniature electronics to the largest aircrafts. Nikon Metrology’s innovative measuring and precision instruments contribute to a high performance design-through-manufacturing process that allows manufacturers to deliver premium quality products in a shorter time. Further information is available on www.nikonmetrology.com.
Product-related inquiries may be directed to Nikon Metrology, Inc. at 810-494-5616 or
jeffrey.bourque@nikon,com or marketing.nm-us@nikon.com.

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