Browse by Editorial Category
Browse by Edition Date

July 2024

Skip Navigation Links.
Expand Applying TechnologyApplying Technology
Expand Automation Equip and SystemsAutomation Equip and Systems
Expand Current NewsCurrent News
Expand EDM Machinery-ConsumablesEDM Machinery-Consumables
Collapse Micro MfgMicro Mfg
Expand People In The NewsPeople In The News
Expand Plant Safety-Worker Protection-ErgonomicsPlant Safety-Worker Protection-Ergonomics

show all editions →

Click here to watch Tutorial Videos >

IscarIscarSST ConsumablesSST Consumables

Improved X-Ray Inspection of Flat Components



A new X-ray computed laminography (CL) technique has been introduced by the Industrial Metrology Business Unit of Nikon Corporation for nondestructively inspecting challenging components using the computed tomography (CT) systems it manufactures. Called Tilted CT, the method improves voxel resolution when examining flat, high aspect ratio components. It also enhances quality control by producing clearer images of samples of any shape in which dense areas can mask those that are less dense.

When scanning flat components, which may have a small area of interest in the center that needs to be inspected, conventional 3D CT has limitations in terms of resolution because the axis of rotation of the item under investigation is at 90° to the X-ray beam. It is therefore not feasible to position the component closer to the source to increase the magnification of the area of interest and improve resolution, because the sample as it turns would collide with the source.

CL data acquisition using Tilted CT avoids the problem by allowing the axis of rotation to be adjusted by up to 30°, which means the sample can fully rotate beneath the X-ray source. Higher magnification and enhanced image clarity are achieved in faster scan times when examining, for example, printed circuit board assemblies or probe cards used in automated wafer testing. In one comparative test, a scan that took more than seven hours using an X-ray microscope was completed in less than one hour with Tilted CT on a SEMI S2/S8 compliant XT H 225 ST 2x system, the company reported.

The other principal advantage of the technique is its ability to eliminate artifacts caused by high-density features in a specimen obscuring areas where X-ray attenuation is lower. By tilting the axis of rotation, areas of high attenuation can be positioned so that they rotate beneath or above a lower-density area of interest, rather than in front of it.

This can prove valuable, for instance, when inspecting additively manufactured metal parts while they are still attached to their support plate. It is possible to scan components in their entirety, even the lower portion, by tilting the whole structure so that the dense build plate rotates at the same angle as the X-ray cone beam, effectively eliminating the obstruction.

Tilted CT is currently available for use with Nikon's XT H 225, XT H 225 ST 2x and large-envelope M2 X-ray CT systems.

For more information contact:

Nikon Metrology, Inc.

12701 Grand River Ave.

Brighton, MI 48116

810-220-4360

sales.nm-us@nikon.com

industry.nikon.com

www.nikonmetrology.com

< back