Tensiometers

Theoretically, building a tensiometer is simple: putting a moveable sample stage underneath a force measuring device. But developing the best-in-class tensiometer is something completely different. It takes more than just using an utterly precise force sensor (which we did) and the sample positioning with the widest dynamic range (which we developed). It takes a change of perspective that focuses on the user and his task - you and your task. It takes the will to make your lab work as convenient, flexible, and time-saving as possible. We believe that Tensíío is that kind of instrument.

Applications

Kruss Surface tension and interfacial tension measurement for wetting and cleaning agents, emulsifiers, or other surfactants

Determination of the effectiveness and efficiency of surfactants by CMC measurement

Wetting behavior of tablets, pharmaceutical active ingredients, and excipients

Wetting of varnishes and paints

Wetting and adhesion of coatings

Development of cosmetic products

Wetting properties of inks

Wetting of fiber bundles and textiles, also for fiber-reinforced polymers

Sedimentation and ductility of dispersions

Analyzing surface modifications

Adhesion at superhydrophobic surfaces

Measuring methods

Kruss Surface tension using the tensile force of a lamella underneath a ring

Interfacial tension using the tensile force of a lamella underneath a ring

Surface tension using the tensile force of a lamella which is stretched until it disrupts

Interfacial tension using the tensile force of a lamella which is stretched until it disrupts

Automated determination of the critical micelle concentration by measuring the SFT at different concentrations

Surface tension using the wetting force of a liquid at a platinum plate or rod

Interfacial tension using the wetting force of a liquid at a platinum plate or rod

Contact angle using the wetting force of a liquid at a solid sample

Contact angle between a liquid and porous material using the capillary force

Surface free energy of a solid using contact angle data

Calculating adhesion-related scientific parameters for the interfacial contact

Density determination of a liquid using the buoyancy of a probe immersed in the sample

Density determination of a solid using the buoyancy of the sample immersed in a liquid

Sedimentation speed of a dispersion

Penetration resistance of a sediment against a probe

Using a force sensor and a software-controlled sample stage for freely defined procedures

Carrying out a measurement up to 20 consecutive times and displaying the results together

Calculating the polar and disperse part of the surface tension from contact angle and surface tension data

Using force measurement and image analysis to determine the adhesion behavior of a drop brought in contact with and then pulled off a solid surface

Measuring results

Surface tension of a liquid

Interfacial tension between two liquids

Critical micelle concentration (CMC) of a surfactant and calculation of excess concentration and surface area per molecule

Advancing and receding contact angle of a solid body

Surface free energy of a solid

Work of adhesion, interfacial tension, and spreading coefficient between a solid and a liquid

Contact angle of a powder

Density of a liquid

Density of a solid

Sedimentation speed of a dispersion

Penetration resistance of a sediment

Sample temperature