The desktop SKYSCAN 1272 is an innovative high-resolution 3D X-ray microscope based on micro computed tomography (micro-CT) technology, which can non-destructively visualize with more than 200 Megapixel (14450 x 14450 pixels) in every virtual slice through an object.
将样品和大型CCD摄像头移动尽可能接近源的能力大大提高了测得的强度。这就是为什么Skyscan 1272与具有固定相机位置的传统系统相比,扫描速度高5倍。
1272年SKYSCAN提供了自动选择的标准ameters with Genius-Mode. Magnification, energy, filter, exposure time and background corrections can all be optimized automatically with a single click.
可选的16位样品更换器可用于无人看管的高吞吐量扫描。
SKYSCAN 1272 is complemented by 3D.SUITE. This comprehensive software suite covers GPU-accelerated reconstruction, 2D/ 3D morphological analysis, as well as surface and volume rendering visualization.
1272年SKYSCAN提供了自动选择的标准ameters with Genius-Mode. Magnification, energy, filter, exposure time and background corrections can all be optimized automatically with a single click.
Furthermore, both the sample and large-format CCD camera can be positioned as close as possible to the source, which substantially increases the measured intensity. That is why SKYSCAN 1272 scans up to 5 times faster compared to conventional systems with fixed camera position.
SKYSCAN 1272 can optionally be equipped with an external 16-position sample changer to increase throughput for QC and routine analysis.
The sample changer accepts a variety of sample sizes, up to a diameter of 96 mm.
Samples can be can be easily replaced at any time without interrupting an ongoing scanning process. New samples are automatically detected, and LED‘s indicate the status for every scan: ready, scanning, done.
The Bruker material testing stages are designed to perform compression experiments up to 4400 N and tensile experiments up to 440 N. All stages automatically communicate through the system’s rotation stage, without the need of any cable connections. Using the supplied software, scheduled scanning experiments can be set up.
Bruker's heating and cooling stages can reach temperatures of up to +80ºC, or 30ºC below ambient temperature. Just like the other stages, no extra connections are needed, and there is an automatic recognition of the stage. Using the heating & cooling stages, samples can be examined under non-ambient conditions, to evaluate the effect of temperature on the sample’s microstructure.
Skyscan 1272成功了Skyscan 1072和Skyscan 1172型号,它们之间至少占了整个Microct骨形态计量学文献的至少一半。这是高分辨率高分和易用性的高分辨率的基准。这使其成为从骨质疏松和关节炎到骨肿瘤和骨髓瘤以及大规模基因表型的理想解决方案。
Ex vivo scanning of biological tissues is a very good way to show their internal structures non-destructively. A contrast agent or chemical drying can improve the image quality by further enhancing or differentiating densities. The SKYSCAN 1272 is the ideal platform for such imaging with its resolution, easy sample handling and high throughput – that’s why you will find so many publications using this scanner.
MicroCT is exceptionally good for the visualization of internal structures in the finest details of the tissues of plants and animals. This imaging method differentiates between densities without harming or destroying the scanned object. That’s why zoology and botany are fast-growing microCT applications with SKYSCAN 1272 users at the forefront. A wide range of different living organisms can be visualized and analyzed with minimal or no sample-treatment.
横截面通过肾结石以2µm的体素尺寸扫描,显示不同的相。(样本由比利时萨特 - 蒂尔曼大学医院临床化学实验室提供。
3D model of a mouse femur scanned at 5 µm voxel size, color-coded for local thickness.
通过小鼠胫骨的横截面,以800 nm的体素尺寸扫描,显示骨细胞lac。
3D rendered image of a mouse tibia, scanned at 800 nm voxel size, showing the osteocyte (blue) and vascular (red) network.
Cross-section through a mouse lung, scanned at 1 micron voxel size.
雄鹿甲虫以10 µm的体素尺寸扫描。由比利时安特卫普大学提供的样本。
Coffee bean scanned at 5 µm voxel size.
3D rendering of the internal structure of a rose flower.
3D rendering of a PLA scaffold pore network color-coded for local thickness, scanned at 1.5 µm voxel size.
通过木材样品横断面扫描了875 nm素的大小。
3D渲染的沙泡蟹的尺寸为8.9 µm。
Shell of a sea urchin scanned at 17µm pixel size.
Orthogonal slices through a mouse embryo (E16.5), scanned at 1.75 µm voxel size.
Volume rendered 3D model of a mouse lung vasculature and airways, scanned after chemical drying at 10 µm voxel size. A necrotic area can be observed in the centre of the left lung.
3D models of a bee head; scanned at high resolution after PTA staining. The right model is virtually cut to expose the internal structures. (sample from the University of Granada, Spain)
Feature |
Specification |
Benefit |
X射线源 |
20 – 100 kV 10 W < 5 µm spot size at 4 W |
Maintenance-free sealed X-ray source Fast scans for QC, or 4D XRM |
X-ray detector |
CCD detector 11 MP (4032 x 2688) 16 MP (4904 x 3280) |
实现最高分辨率的精细探测器 |
对象大小 |
75 mm diameter 70 mm height |
能够从中小型样本大小扫描 |
Sample changer (optional) |
16 samples up to 50 mm diameter 8 samples up to 96 mm diameter 外部访问 |
Unattended high throughput Any combination of large and small samples Add/remove samples at any time without interrupting the actual scan |
Dimensions |
W 1160 mm x D 520 mm x H 330 mm 重量150公斤 |
Space-saving desktop system that fits in every lab |
Power supply |
100-240V AC,50-60Hz,最大3A。 |
最低安装要求,标准电源就足够了 |
Bruker XRM解决方案包括收集和分析数据所需的所有软件。具有用户指导参数优化的直观图形用户界面支持专家和新手用户。通过使用最新的GPU动力算法,重建时间大大减少了。CTVOX,CTAN和CTVOL结合在一起,形成了一个强大的软件套件,用于模型的定性和定量分析。
Measurement Software:
SKYSCAN 1272 – Instrument control, measurement planning and collection
重建软件:
NRECON - 将2D投影图像转换为3D卷
分析软件:
DATAVIEWER– Slice-by-slice inspection of 3D volumes and 2D/3D image registration
CTVOX- 通过音量渲染的现实可视化
CTAN– 2D/3D image analysis & processing
CTVOL– Visualization of surface models to export for CAD or 3D printing
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软件Updates
Documentation
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