Other Physical Measuring Instruments
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Other Physical Measuring Instruments, Physical Measuring Instruments, Testing Instrument & Equipment
Tensile and Shear Tester KES-FB1-A/AW – KATO TECH CO.LTD.
Other Physical Measuring Instruments, Physical Measuring Instruments, Testing Instrument & EquipmentTensile and Shear Tester KES-FB1-A/AW – KATO TECH CO.LTD.
The KES-FB1-A Tensile and Shear Tester analyzes hand movements-referred to as “tensile” and “shear”-performed by artisans and professionals when judging a fabric’s texture.
This device performs these movements mechanically, making it possible to obtain objective numerical data.
Obtainable data includes tensile/shear rigidity, tensile energy, elongation rates, and recoverability for such targets as cloth, paper, non-woven fabric, and film.
Tensile and shear characteristic data is useful for determining stiffness and anti-drape stiffness. These properties often influence form stability and the tendency for wrinkles.SKU: n/a
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When selecting Other Physical Measuring Instruments for your company’s needs, there are several important points to consider during the comparison and evaluation process.
1. Measurement Accuracy and Precision
Evaluate the measurement accuracy and precision of the other physical measuring instrument. Look for instruments that provide reliable and accurate measurements of the desired physical parameters. Consider the instrument’s resolution, sensitivity, and calibration capabilities to ensure accurate and precise measurements.
2. Measurement Range
Consider the measurement range of the other physical measuring instrument. Ensure that it covers the full range of values you need to measure in your application. It’s important to choose an instrument that can handle the broadest range possible to accommodate variations in the physical properties being measured.
3. Measurement Technique
Evaluate the measurement technique employed by the other physical measuring instrument. Different instruments may use techniques such as pressure sensing, force measurement, displacement sensing, or temperature sensing. Understand the principles and capabilities of each technique and choose the one most suitable for your measurement requirements.
4. Sample Compatibility
Assess the compatibility of the other physical measuring instrument with your sample types. Consider factors such as sample size, shape, and material properties. Ensure that the instrument can effectively measure the physical properties of your samples without causing damage or altering their characteristics.
5. Calibration and Maintenance
Assess the calibration requirements and maintenance procedures of the other physical measuring instrument. Look for instruments that offer easy calibration processes and provide reliable calibration standards. Consider the frequency and complexity of maintenance tasks to ensure accurate and reliable measurements over time.