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Bruker Company has introduced the discharge of the Hysitron TI 990 TriboIndenter, which brings superior ranges of efficiency, automation, and productiveness to nanomechanical testing. TI 990 is a complete development of Bruker’s trade‑main TriboIndenter platform with new measurement modes, 2X sooner testing throughput, and a bigger 200mm x 300mm testing space. These enhancements ship tangible advantages throughout a wide range of purposes and markets, for instance, improved accuracy for nanoscale testing of polymer skinny movies, elevated throughput for combinatorial supplies science, and multi‑measurement evaluation of full 300‑mm semiconductor wafers.
Using a number of patented and proprietary applied sciences, TI 990 allows quantitative mechanical and tribological characterization on the nanoscale. Each facet of the measurement and evaluation course of options up to date expertise, together with the brand new Performech III controller, superior suggestions management modes, next-generation nanoDMA IV dynamic nanoindentation, and XPM II high-speed mechanical property mapping. Practically any pattern will be mounted utilizing the common pattern chuck and measured with a bigger testable space. High-view pattern navigation streamlines system setup within the new TriboScan 12 software program, permitting for simplified distant operation of the instrument.
With its mixture of efficiency, usability, and suppleness, TI 990 is a perfect characterization resolution for polymer analysis, alloy growth, and semiconductor gadgets. “Each facet of TI 990 was reimagined to optimize the testing course of and potential,” added Dr. Oden Warren, Normal Supervisor of Bruker’s nanomechanical testing enterprise. “Our engineers have made every thing higher, from elevated measurement flexibility to simpler system setup and extra streamlined operation. I look ahead to seeing the breakthroughs our clients are going to make with this new system.”
“Bruker’s newest system consists of highly effective new device management, significantly its new mixed-mode suggestions management, which opens analysis potentialities at each extremes of the time area,” mentioned Prof. Nathan Mara, College of Minnesota Twin Cities. “It’s spectacular to see how the boundaries for brand spanking new experiments at small size scales are being expanded.”
Nanoscratch: Perceive tribological traits or adhesion properties by combining a standard load with lateral displacement of the probe. Along with power and displacement information assortment, TI 990 can incorporate post-scratch in-situ scanning probe microscopy (SPM) imaging of the pattern with nanometer decision for instant topographic outcomes.
Nanowear: Conduct tribometer-like experiments on the nanoscale by sliding a scratch probe in a reciprocating movement whereas monitoring power and displacement each usually and laterally. Two-dimensional capacitive transducer expertise allows high-sensitivity friction maps to be acquired as a perform of variety of cycles, utilized regular power, put on depth, and lateral displacement.
In-Situ SPM Imaging: Immediately correlate pattern topography photos with nanomechanical and nanotribological characterization information. The TI 990’s nanometer-precision check placement accuracy ensures picture and information are colocalized, enabling each pre- and post-test SPM imaging to keep away from floor defects, correlate phases with properties, and analyze deformation habits.
XPM II: Rapidly map mechanical properties whereas sustaining excessive measurement decision and accuracy. The high-bandwidth electrostatically actuated transducer, quick management and data-acquisition electronics, and top-down in-situ SPM imaging mix to supply quantitative nanomechanical property maps and property distribution statistics in file time.
nanoDMA IV with CMX: Conduct nanoscale dynamic mechanical evaluation to look at properties as a perform of indentation depth, frequency, and time. Bruker’s CMX management algorithms present a quantitative and actually steady measurement of mechanical properties, together with hardness, storage modulus, loss modulus, complicated modulus, and tan delta.
Nanoindentation: Get hold of power versus displacement curves to quantitatively characterize the mechanical properties of small volumes of fabric. The mixture of the distinctive capacitive transducer design, tightly managed calibration requirements, and exactly machined probes produces dependable measurements of diminished modulus, hardness, and extra on any materials.For extra data: www.bruker.com
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