YXLON.Computed Tomography
GERMANY
YXLON International X-Ray GmbH
Esner Bogen 15D-22419 Hamburg Germany什么季节放风筝
Phone: +49 40 5 27 29 - 0Fax: +49 40 5 27 29 - 170e-mail: Internet: lon.de
YXLON International CT Development GmbH
Am Walzwerk 41D-45527 Hattingen Germany
北京市产假
Phone: +49 23 24 56 29 0Fax: +49 23 24 56 29 29e-mail: Internet: lon.de
DENMARK
YXLON International AS
Helgeshøj Allé 38DK-2630 Taastrup Denmark
Phone: +45 72 40 77 00Fax: +45 72 40 77 01
e-mail: Internet:
USA
YXLON International Inc.
3400 Gilchrist Road Akron, OH 44260-1221USA
Phone: +1 330 798 4800Fax: +1 330 784 9854
e-mail: Internet:
JAPAN
YXLON International KK
JK Ohmori Bldg., 28-10,Minami Oi 3-chome,Shinagawa-ku Tokyo, 140-0013Japan
Phone: +81 3 5753 6021Fax: +81 3 5753 6024
e-mail: Internet: jp
YXLON International KK Osaka Branch
柿子树如何修剪Shin Osaka Miyuki Bldg., 2F 6-13, Nishinakagima 5-chome Yudogawa-ku Osaka 532-0022Japan
Phone: +81 6 6886 5533Fax: +81 6 6886 5633
e-mail: iwamoto. Internet: jp
CHINA
YXLON International X-Ray GmbH Shanghai Rep. Office
No. 715, Nanzheng Building 580 Nanjing RD (W)Shanghai 200041PR China
Phone: + 86 21 6217 5610Fax: + 86 21 6217 4250e-mail: Internet: lon
赵州桥的简介YXLON International X-Ray GmbH Beijing Rep. Office
C1809 Web Times Center 17 Zhongguancun South Ave.Haidian
Beijing 100081PR China
Phone: + 86 10 8857 9581Fax: + 86 10 8857 9580
e-mail: Internet: lon
YXLON.International
YXLON.CT Applications
A wide variety of objects to be inspected can be examined using computed tomography (CT). Alongside non-destructive material testing, tasks involving measurement and geometric modeling can also be accomplished with certainty.
Inspection
Using CT, defects in objects to be inspected can be depicted almost independent of their shape and size, thus enabling an assured analysis of both materials and defects. For example,the three-dimensional depiction free of overlapping gments makes it possible to clearly identify flaws. Results like the supply valuable knowledge for the further utilization of the inspected item within the production process. Above and be-yond that, the production process itlf can also be reguided via defect recognition.
网球场地标准尺寸Measurement
Yet another key task of quality assurance is the measurement of component geometries, e.g. in asssing prototypes. Unlike tactile and optical methods of measurement, CT enables not only the measurement of external geometries, but also inner
geometries and inaccessible areas in and on components.
Areas of industrial CT u
Production dimensions toward prototype qualification can thus be controlled, yet CT also allows for an analysis of flaws according to their shape, size and posi-tion as well.
Geometric Modeling
Following the CT scan, the inspection object is available as a data model, in-cluding all internal and external surfaces and dimensions. When making decisions it is now possible to revert from the existing inspection object directly back to construction-design data on the basis of this data model. For instance,the datat can be ud toward a new
or converted construction of the in-spected object in the cour of rever engineering. Another option is the usage for actual/target situation comparisons to check for dimensional accuracy, de-formation or wear and tear.
Turbine blade Mobile telephone housing
Aluminum wheel Tire
Soil core sample
Inspection
Measurement
Geometric Modeling
爱心图片手势Ceramic ball gatherer
image generation (reconstruction), image depiction and analysis. object or the X-ray tube / detector unit can rotate around a 360°
sional data models within the shortest of time spans.
the respective inspection task.
grafik Z1堆积木
Functional workflow in
computed tomography
Flat-Panel Detector
1st Step
The X-ray tube generates a cone beam that encircles the object to be inspected as completely as po
ssible. The result is a full-scale radioscopic image.2nd Step
The radioscoped inspection object is rotated across 360°. The data generated are transported into a 3D volumetric image following reconstruction.
Line Detector
1st Step
The X-ray tube radiographs the object to be inspected using a fan beam across a defined ction. The result is that ction’s radioscopic image.2nd Step
The X-rayed inspection object is rotated across 360°. A tomogram of the X-rayed cross-ction is obtained after the data have been reconstructed.3rd Step
Cross-ctional images of veral c-tions are required to obtain a complete 3D volumetric image. The are scanned one after the other.4th Step
As a final step, the individual cross-c-tional images are computed to create a 3D volume and result in a three-dimen-sional depiction of the inspected object.
Whether line or flat-panel detector: In computed tomography, radioscopic images of the inspected object are generated from veral angles and computed to create a three-dimensional image within a short time span – and always with the u of X-ray beams so that inner and outer geometries become visible. In comparison to other inspection procedures, computed tomography thus offers an added gain of both information and accuracy.
Wide-ranging application possibilities
Once data has been captured non-destructively using a CT scan, that data is now available for the widest variety of tasks such as inspection, measurement and geometric modeling in the fields of rearch and development, quality assurance or production control.
YXLON.CT Solutions –
Preci, fast and functional
YXLON.CT Solutions
Y.CT Compact
As a result of its compact design, including a radiation-shielded cabinet, Y.CT Compact is especially suited for deployment clo to production, e.g. when inspecting for flaws during quality control or prototyping. The system distinguishes itlf through ur-friendly operation, short measurement time
s and fast test cycles. The inspection envelope is optimized for medium-sized inspection objects such as pistons.
Y.CT Precision
Y.CT Precision is optimized for detailed examination in the µm range due to its micro -focus tube and an enlargement axis. The flat-panel detector and a special inline reconstruction allow full-scale volumes to be captured rapidly. The areas of deploy-ment for Y.CT Precision lie wherever highly defined results are required for small-scale to mid-sized inspection parts made of lightweight alloys, plastics or ceramics.
Y.CT Modular
In the ca of Y.CT Modular, the X-ray sources and detectors are defined as mod-ules. They can thus be chon optionally and retrofitted as well. The basic tup is oriented according to operational requirements, and can include both microfocus and standard tubes, and line and/or flat-panel detectors. A special mode enables inspection parts to be scanned even when they extend outside of the inspection envelope, or alternatively to scan normally sized inspection objects faster.
Y.CT Universal
The expanded inspection envelope of Y.CT Universal and a high-performance mani-pulator ensure that even large objects can be inspected trouble-free. A high degree of measurement precision within the entire inspection envelope is achieved thereby.The system is particularly well suited for applications in which inspection items of various sizes made of different materials such as concrete, ceramics, rubber, alu-minum or steel are being tested.
Y.CT Tire
The examination of full-scale, large-volume tires is possible using Y.CT Tire. An optional load-application unit enables CT scans of tires bearing loads so that the behavior of prototypes can be investigated realistically and extrapolated all the way to extreme situations, yet without destroying the prototype during testing.
Y.CT Solutions
Y.CT Solutions are customer-specific CT solutions customized to match the respec-tive spectrum of parts to be inspected. The widest variety of X-ray sources are deployed: They range from 225 kV microfocus tubes to standard tubes and on to linear accelerators. Various line and flat-panel detectors are ud as well. The systems are delivered with or without radiation-shielded cabinets.
High-grade components –
The basis for outstanding results
YXLON.CT Components
Y.CT X-Ray Source
The lection of deployable X-ray sources ranges from microfocus to unipolar and bipolar X-ray tubes, all the way to linear accelerators. YXLON X-ray tubes combine great mechanical stability, high resistance to voltage fluctuation and high perfor-mance with small dimensions and a low weight. Together with our generators they constitute very reliable systems for generating X-rays.
Y.CT Detector
YXLON deploys both flat-panel and line detectors to capture images. All flat-panel detectors ud are designed especially for CT applications. The line detectors are developed and built by YXLON. This enables a choice of line detector that displays the respectively optimum depiction characteristics for each CT system and appli-cation.
Y.CT Manipulator
For all manipulators YXLON makes sure that very high standards are met with re-gard to position precision, form stability and uful product life. The manipulators can be integrated into both a radiation-shielded cabinet and a radiation-shielded room.
infml
Y.CT Software
When it comes to image quality, the CT software ud plays an important role. The CT system is monitored and controlled by means of the operational software. All of the necessary parameters for a CT scan can be t via an intuitively usable ur interface so that the operator is able to carry out inspection and measurement tasks with assurance following brief training.As needed or on request, YXLON can take over the control of operational
software via a remote maintenance function, e.g. in a ca of rvicing or for training purpos.
The reconstruction software transforms physically gained measurement figures into image data so that two or three-dimensional image informa-tion aris. Very fast and preci reconstruction is necessary in order to guarantee short measurement times and high image quality. That’s why YXLON has developed special reconstruction algorithms. The reconstruction of CT data can take place both during and after measurement.
Depending on the information gained from the CT scan that is relevant for the customer, various analysis software from the areas of 3D volume analysis, measurement asssment and rever engineering are utilized to analyze the CT datat. CT data output and the findings from analys can take place in the form of image and video formats, inspection protocols,statistics or 3D print-outs.
