Page 2 - Shimadzu XSeeker 8000
P. 2
Designed for Simplicity Compact, High-Output System
XSeeker 8000 Smallest, Lightest Bench-Top CT System in
™
Its X-Ray Output Class
This system is equipped with a 160 kV high-output X-ray generator,
enabling observations of thick, hard-to-penetrate plastic parts, as
well as aluminum die cast parts and other metal parts. It is the
smallest and lightest system in its X-ray output class, so it can be
installed anywhere.
P.4
Image Quality and Functionality on
Par with High-End Models
High-Accuracy Scanning Utilizing a Maximum Input
Resolution of 5.6 Million Pixels
High-accuracy scanning is achieved in offset scan mode, which
provides both a wide 100 mm diameter scanning field of view and an
input resolution equivalent to up to 5.6 million pixels. In addition,
the CT data viewer is equipped as standard with a VR (3D) display
function, enabling more intuitive observations coordinated with the
cross-sectional display function.
P.5
Operation Optimized
for Inspections
New Functionality Provides Easy Operation and
The XSeeker 8000 bench-top X-ray computed tomography (CT) system is equipped with a High Throughput
high-output X-ray generator and a high-resolution flat panel detector. Despite its compact size, Just a 3-step process enables starting observations. Even users with no
it has a high X-ray output of 160 kV, enabling clear observations of molded plastic parts as well operating experience can start CT scanning immediately. In addition,
as aluminum die cast parts and other metal parts. in repetitive scanning in inspection applications, all the processes
In addition, the newly developed XSeeker control software provides high operability and the from starting scanning to observing the cross sections of interest are
available at the push of a button.
highest throughput to date.
With clear image quality and high throughput, it supports applications in a wide range of P.6-9
situations, from detailed observations in product development and quality evaluation to
inspections at machining sites.