Hysitron TI Premier Nanoindenter

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Nanomechanical & Nanotribological Test Instrument

Bruker’s Hysitron TI Premier nanoindenter was specifically designed to deliver industry-leading, quantitative nanomechanical characterization within a compact platform. Built upon proven Hysitron technology, the TI Premier provides a broad suite of nanoscale mechanical and tribological testing techniques. Routine measurements to advances research can be accomplished utilizing the versatile base configurations of TI Premier, while numerous technique upgrade options are available to meet the demands of your future characterization needs.

Powerful

characterization packages

Provides tailored solutions for quasi-static nanoindentation, dynamic characterization, high-temperature characterization, and testing over multiple length scales.

Proven

Hysitron technology

Ensures accurate, reliable, quantitative mechanical and tribological property measurements at the nanoscale.

Adaptable

system configuration

Supports a broad range of hybrid and correlative characterization techniques to meet current and future characterization needs.

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Caractéristiques

TI Premier Base Configuration

Capacitive transducer with in-situ SPM imaging
Automated staging
Metrology-grade granite
Anti-vibration
High-resolution optical imaging
Versatile sample chuck
Environmental isolation enclosure
Advanced control technology

Powerful Base Configuration

Standard Testing Modes

Superior Control and Sensitivity

A series of five low force indents on (100) Silicon showing the industry leading noise-floor performance and data repeatability of the Hysitron TI Premier nanomechanical testing system.

Proprietary capacitive transducer technology provides exceptional measurement noise floors (75 nN, <0.2 nm), accuracy, and reliability during the nanoindentation process. Electrostatic actuation uses little current, enabling superior drift characteristics that result in faster data acquisition, higher accuracy, and better repeatability.

Quantitative Characterization Capabilities

Force vs. displacement curve on fused quartz showing typical response of elastic-plastic material and resulting in-situ SPM image of quartz surface after quasi-static nanoindentation showing residual indent impression.

Bruker has developed a broad suite of complementary characterization techniques to enable powerful nanoscale materials research.

Dynamic Mechanical Analysis:Storage modulus, loss modulus, and tan delta as a function of measurement depth, frequency, and time.

Tribology:Friction Coefficients, scratch resistance, thin film adhesion, and nanoscale wear.

Surface Characterization:In-situ scanning probe microscopy, optical microscopy, and surface mechanical property mapping.

Electrical Characterization:现场电气接触电阻,反对ductance, phase transformations, and material deformation behavior.

Environmental Control:Nanomechanical and nanotribological characterization at high temperatures and in customizable gaseous atmospheres.

Applications

Application-Specific Characterization Packages

Load versus displacement curves of NiCoCrAlY at 350°C (red), 500°C (green), and 600°C (purple). The low scatter of these curves and the regular shape indicates the high stability of the Hysitron TI Premier nanoindenter at elevated temperature.

Bruker’s Hysitron TI Premier offers application-specific characterization packages tailored for quasi-static nanoindentation, dynamic characterization, high temperature characterization, and testing over multiple length scales. These prepackaged configurations are optimized to deliver dedicated solutions to meet your research and process control requirements.

Quasi-Static Nanoindentation Package:Nanomechanical characterization optimized for thin films and inhomogeneous materials.

Dynamic Characterization Package:Quasi-static and dynamic mechanical property characterization over a broad range of materials, from ultrasoft to ultrahard.

High-Temperature Characterization Package:Investigate mechanical properties and time-dependent deformation behavior as a function of temperature.

Multiple Length Scales Package:Depth-sensing indentation over the nanometer and micrometer length scales.

Accessoires

Offering broadest range of innovative characterization techniques

Featured Options and Add-Ons

xSol High Temperature Stage

High temperature, atmosphere controlled characterization

nanoDMA III

Nanoscale dynamic mechanical analysis

2D Capacitive Transducer

Combined nanoindentation and nanoscratch testing capabilities in a single testing head

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Hysitron TI Premier

Faits marquants