Standard Weight & Weight Set

A balance can never be more accurate than the test weight, used to adjust it, it depends on its tolerance.

Here's how to find the right test weight:

• Just determine the number of digits specified for your weighing instrument's resolution, then read off the particular accuracy

• class that your test weight must have on the graph provided below.

• The weight value of your test weight should be more than 80% of the maximum capacity of your weighing instrument.

• Outstanding Cost Performance Ratio: Demonstrates an exceptional balance between cost and performance, ensuring value for investment.

• Modern Calibration Methods: Incorporates contemporary calibration methods, enabling precise calibration and higher accuracy in measurements.

• Accredited Calibration: Calibrated by accredited institutions such as NPL (National Physical Laboratory), NABL (National Accreditation Board for Testing and Calibration Laboratories), RRSL (Regional Reference Standard Laboratory), DKD (Germany), NVLAP (National Voluntary Laboratory Accreditation Program), and UKAS (United Kingdom Accreditation Service), ensuring adherence to rigorous standards.

• El to MI Class Weight: Offers weights conforming to El (Echelon Length) to MI (Minimum Increment) Class specifications, available with or without certification.

• Material Density: The material density of the weights is specified as 8000 kg/m³.

• Air Density: The air density is defined as 1.2 kg/m².

• Measuring Temperature: Calibration is performed at a measuring temperature of 20°C, ensuring standardized conditions for accurate measurements.

• A balance can never be more accurate than the test weight, used to adjust it, it depends on its tolerance.

• Here's how to find the right test weight

• Just determine the number of digits specified for your weighing instrument's resolution, then read off the particular accuracy

• class that your test weight must have on the graph provided below.