Hysitron IntraSpect 360

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Quantitative Mechanical Property Characterization

Bruker’s Hysitron IntraSpect 360 brings quantitative mechanical property characterization to X-Ray microscopes (XRM) and beamlines. This unique system can be used to perform a variety of mechanical tests such as indentation, compression, fatigue, and bending, which can then be correlated to 2D or 3D images from the host microscope.

Performech

advanced control module with TriboScan

Ensures precise, feedback-controlled nanomechanical testing with automated data analysis.

360° X-ray

transparent viewing window

Provides unobstructed imaging and streamlined μCT studies of material deformation, including fracture and the onset of failure.

Exclusive

三板电容式传感器技术

Delivers an unsurpassed level of stability during 4D studies of material failure, such as crack propagation at a fiber-matrix interface, or void behavior within weld joints.

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Eigenschaften

Load or Displacement-Controlled

Testing Modes

Nanoindentation

Compression

Bending

Fatigue

Cutting-Edge Technology for Maximum Capability

The load-displacement data from in-situ indentation test on Southern Yellow Pine and a series of 2D image slices acquired during the test. The load was applied normal to the transverse plane while deformation was observed on a longitudinal plane.

Hysitron Intraspect 360利用独特的压电负载电池与独家三板电容式传感器技术相结合。这种布置在维持超低的噪声层的同时，可用的位移范围显着增加。这种独特的设计导致很少的热量产生，在与样品接触时，它提供了无与伦比的稳定性。这在计算机断层扫描研究（μCT）的成像过程中非常重要，其中数据采集可能很长。与Bruker的参考频率校正技术结合使用了168小时的测试。该系统还包括Bruker的Perforech Advanced Control模块和龙环软件，以精确，反馈控制的纳米力学测试和自动数据分析。

Proprietary Design for Ultimate Performance

The IntraSpect 360 features a seamless, X-Ray transparent viewing window for unobstructed imaging and streamlined μCT studies of material deformation, including fracture and the onset of failure. With up to 10N of maximum force and 80μm of displacement, the system is a versatile choice for characterizing the internal deformation processes in a wide variety of materials, such as composites, ceramics, metals, and natural or biological materials. Bruker’s industry-leading transducer technology delivers an unsurpassed level of stability during 4D studies of material failure such as crack propagation at a fiber-matrix interface, or void behavior within weld joints.

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