Our absolute moisture meter enables easy determination of absolute moisture in various materials. A significant advantage of an absolute moisture meter over devices using capacitive measuring methods is that the absolute moisture meter operates independently of characteristic curves and provides more accurate results.
Our analysis scale enables easy determination of absolute moisture in various materials. A significant advantage of an analysis scale over devices using capacitive measuring methods is that the analysis scale operates independently of characteristic curves and provides more accurate results.
Our benchtop scale enables easy determination of absolute moisture in various materials. A significant advantage of an benchtop scale over devices using capacitive measuring methods is that the benchtop scale operates independently of characteristic curves and provides more accurate results.
The Force Gage records both tensile and compressive forces with extremely high accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, the tear-off force or the force required to actuate buttons or switches. The Force Gage is supplied with an internal measuring cell and can measure forces up to 10 N.
The Force Gage records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches. The Force Gage is supplied with an external measuring cell and can measure forces up to 20 N.
The Force Gage records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches.
The Force Gage records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches.
The Force Gauge / Digital Force Gauge / Digital Force Gauge / Digital Force Gauge records both tensile and compressive forces with extremely high accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, the tear-off force or the force required to actuate buttons or switches. The Force Gauge / Digital Force Gauge / Digital Force Gauge / Digital Force Gauge is supplied with an internal measuring cell and can measure forces up to 10 N.
The Force Gauge / Digital Force Gauge records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches. The Force Gauge / Digital Force Gauge is supplied with an external measuring cell and can measure forces up to 20 N.
The Force Gauge / Digital Force Gauge records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches.
The Force Gauge / Digital Force Gauge records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches.
Our humidity detector enables easy determination of absolute moisture in various materials. A significant advantage of an humidity detector over devices using capacitive measuring methods is that the humidity detector operates independently of characteristic curves and provides more accurate results.
Our LAB scale enables easy determination of absolute moisture in various materials. A significant advantage of an LAB scale over devices using capacitive measuring methods is that the LAB scale operates independently of characteristic curves and provides more accurate results.
Our laboratory balance enables easy determination of absolute moisture in various materials. A significant advantage of an laboratory balance over devices using capacitive measuring methods is that the laboratory balance operates independently of characteristic curves and provides more accurate results.
Our moisture analyzer enables easy determination of absolute moisture in various materials. A significant advantage of an moisture analyzer over devices using capacitive measuring methods is that the moisture analyzer operates independently of characteristic curves and provides more accurate results.
Our moisture balance enables easy determination of absolute moisture in various materials. A significant advantage of an moisture balance over devices using capacitive measuring methods is that the moisture balance operates independently of characteristic curves and provides more accurate results.
Our moisture meter enables easy determination of absolute moisture in various materials. A significant advantage of an moisture meter over devices using capacitive measuring methods is that the moisture meter operates independently of characteristic curves and provides more accurate results.
Our precision balance enables easy determination of absolute moisture in various materials. A significant advantage of an precision balance over devices using capacitive measuring methods is that the precision balance operates independently of characteristic curves and provides more accurate results.
Our relative humidity meter enables easy determination of absolute moisture in various materials. A significant advantage of an relative humidity meter over devices using capacitive measuring methods is that the relative humidity meter operates independently of characteristic curves and provides more accurate results.
Our tabletop scale enables easy determination of absolute moisture in various materials. A significant advantage of an tabletop scale over devices using capacitive measuring methods is that the tabletop scale operates independently of characteristic curves and provides more accurate results.
The Tensile Tester records both tensile and compressive forces with extremely high accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, the tear-off force or the force required to actuate buttons or switches. The Tensile Tester is supplied with an internal measuring cell and can measure forces up to 10 N.
The Tensile Tester records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches. The Tensile Tester is supplied with an external measuring cell and can measure forces up to 20 N.
The Tensile Tester records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches.
The Tensile Tester records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches.
The Tension Dynamometer / Tension Load Cell records both tensile and compressive forces with extremely high accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, the tear-off force or the force required to actuate buttons or switches. The Tension Dynamometer / Tension Load Cell is supplied with an internal measuring cell and can measure forces up to 10 N.
The Tension Tension Dynamometer / Tension Load Cell / Tension Load Cell records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches. The Tension Tension Dynamometer / Tension Load Cell / Tension Load Cell is supplied with an external measuring cell and can measure forces up to 20 N.
The Tension Tension Dynamometer / Tension Load Cell / Tension Load Cell records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches.
The Tension Tension Dynamometer / Tension Load Cell / Tension Load Cell records both tensile and compressive forces with extremely precise accuracy. Tensile and compressive forces are frequently measured in test laboratories, for example to determine yield points, tear-off force or the force required to actuate buttons or switches.
The Car Measuring Device works with a measuring probe that only requires a small contact surface and low contact pressure. The Car Measuring Device is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.
The Coating Thickness Gauge works with a measuring probe that only requires a small contact surface and low contact pressure. The Coating Thickness Gauge is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.
The Material Tester works with a measuring probe that only requires a small contact surface and low contact pressure. The Material Tester is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.
The Material Thickness Meter works with a measuring probe that only requires a small contact surface and low contact pressure. The Material Thickness Meter is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.
The NDT Test Instruments works with a measuring probe that only requires a small contact surface and low contact pressure. The NDT Test Instruments is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.
The Paint Gauge / Paint Tester works with a measuring probe that only requires a small contact surface and low contact pressure. The Paint Gauge / Paint Tester is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.
The Paint Test Equipment / Paint Testing Equipment works with a measuring probe that only requires a small contact surface and low contact pressure. The Paint Test Equipment / Paint Testing Equipment is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.
The Surface Testing works with a measuring probe that only requires a small contact surface and low contact pressure. The Surface Testing is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.
