Hysitron TI 980 TriboIndenter: A Breakthrough in Nanomechanical Testing
In the field of material research and development, precision and efficiency are crucial for accurately measuring mechanical properties at the nanoscale. Hysitron TI 980 TriboIndenter by Bruker stands out as an advanced solution, integrating cutting-edge technology to deliver speed, accuracy, and versatility in a single nanomechanical testing system.
One of its key innovations is NanoDMA® IIIwhich enables high-resolution dynamic viscoelastic analysis at a single sample point. Unlike traditional static methods, this feature provides superior accuracy, making it particularly beneficial for studying polymers, biomaterials, and composites.
Ceramic matrix composite modulus map composed of 400 measurements in 67 seconds
Additionally, XPM™ (Accelerated Property Mapping) revolutionizes property mapping by increasing measurement speed up to 100 times fasterthan conventional techniques. This allows for comprehensive material characterization over large areas in significantly less time. SPM+ (Scanning Probe Microscopy) the system offers high-resolution surface imaging, delivering deeper insights into material structures.
10 μm scan size, 1024 x 1024 resolution, topography image of a meteorite sample
Scan size and resolution of vertical and horizontal axes can be changed independently: 30 μm x 30 μm scan size, 256 x 256 resolution (top); and 60 μm x 30 μm scan size, 512 x 256 resolution (bottom)
To ensure measurement stability and precision Performech™ II Advanced Control Module provides ultra-precise force and displacement control with minimal noise. This guarantees consistent and highly accurate mechanical property evaluations, even for complex materials.
With its advanced technology, Hysitron TI 980 TriboIndenter is a powerful tool for a wide range of applications, including semiconductor research, thin film analysis, biomaterial characterization, and advanced structural materials. Its combination of speed, precision, and flexibility makes it the ideal choice for laboratories and industries that demand cutting-edge nanomechanical testing capabilities.
