Introducing Viscodrop: Revolutionizing High-Temp Viscosity Measurement

Introducing Viscodrop: Revolutionizing High-Temp Viscosity MeasurementIntroducing Viscodrop: Revolutionizing High-Temp Viscosity MeasurementIntroducing Viscodrop: Revolutionizing High-Temp Viscosity Measurement

Introducing Viscodrop: Revolutionizing High-Temp Viscosity Measurement

Introducing Viscodrop: Revolutionizing High-Temp Viscosity MeasurementIntroducing Viscodrop: Revolutionizing High-Temp Viscosity MeasurementIntroducing Viscodrop: Revolutionizing High-Temp Viscosity Measurement

 

Accurate, Containerless Viscosity Measurement at Extreme Temperatures

Viscodrop is a groundbreaking tool designed for industries and research fields where precise material analysis is critical. Unlike traditional methods, Viscodrop measures the viscosity of materials at high temperatures without any contact with containers, ensuring that measurements remain free from contamination and highly accurate.

Main Specifications

Various Temperature range:  from 600°C - 2300°C

Contact angle:                       from 0° to 180°

Surface tension:                    from 0 to 2000 mN/m

Viscosity range :                   1 mPa.s - 10 e6 Pa.s

Volume of sample:                few µL

Vacuum:                              10-e5 Bar


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Why Choose Viscodrop?

  • Containerless Measurement
    Say goodbye to contamination. Viscodrop’s innovative containerless approach ensures that your high-temperature materials remain pure and uncontaminated throughout the measurement process.
  • High-Temperature Capability
    Built to withstand extreme conditions, Viscodrop can handle high-temperature measurements that challenge other instruments. Perfect for industries like metallurgy, glass manufacturing, ceramics, and more.
  • Precision Engineering
    Viscodrop provides highly accurate viscosity measurements, helping you improve material quality control, research, and production processes.

Industries Benefiting from Viscodrop

Viscodrop is already transforming industries where high-temperature material analysis is crucial:

  • Metallurgy: Analyze molten metals without the risk of contamination, improving product quality and research results.
  • Glass and Ceramics: Monitor viscosity during production, ensuring consistent material properties and product performance.
  • Aerospace: Test and develop new materials designed to withstand extreme conditions without compromising their integrity.

Why Viscodrop’s Containerless Technology is Game-Changing fo

Viscodrop’s Containerless Technology is Game-Changing for Alloy Measurement

 Viscodrop addresses these issues by utilizing a containerless viscosity measurement method, making it ideal for high-temperature molten alloys. Here’s why it’s transformative for research and industry:

 No Risk of Contamination: By eliminating the need for containers, Viscodrop ensures that the molten alloy remains pure throughout the measurement process, which is particularly crucial when working with high-performance or rare materials. .

True High-Temperature Measurement: Viscodrop operates effectively at extremely high temperatures, capturing the real behavior of alloys in molten states. This is critical for alloys used in extreme environments where even small inaccuracies can lead to failures in performance. 

 Enhanced Understanding of Flow and Solidification: Viscosity data obtained through Viscodrop allows researchers and engineers to better understand how an alloy will behave during casting, welding, and other manufacturing processes. The precise flow properties impact the final structure and mechanical properties of the material. 

 Applicable to a Wide Range of Alloys: From superalloys used in turbines to steel and aluminum alloys, Viscodrop can handle a broad spectrum of high-temperature materials, offering flexibility across various applications. 

Key Benefits for Alloy Developement

 


  1. Improved Casting Processes: Accurate viscosity data at high temperatures helps optimize casting techniques by predicting how molten alloys will flow and fill molds, reducing defects and improving product quality.
  2. Microstructure Control: Understanding the viscosity during cooling phases allows for better control of microstructural formation, which is critical for the mechanical strength and durability of the final alloy product.
  3. Increased Material Performance: Alloys used in high-stress environments, such as aerospace engines or nuclear reactors, must exhibit consistent performance. Precise viscosity measurements ensure better predictability of behavior under operating conditions.

En savoir plus

Heating technologies available

from heating shanks to Induction heating

Measurement of contact angle

Measurements on High viscous sample

Principle of the measurement

The experiment

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