<abstract xml:lang="en" xmlns="http://www.w3.org/1999/xhtml"><p>Continuously growing technologies and increasing quality requirements have exerted thrust to the metrological institutes to maintain a high level of calibration and measurement capabilities. Force, being very vital in various engineering and non - engineering applications, is measured by force transducers. Deviations in the values observed and mentioned in the calibration certificate for force transducers may primarily be due to the creep, time loading effect and temperature effect if not properly compensated. Beside these factors, machine interaction, parasitic components etc. pertaining to the quality of the force standard machine used for calibration also contribute to the deviations. An attempt has been made by National Physical Laboratory, India (NPLI) to automate the 50 kN dead weight force machine to minimize the influence of factors other than the factors related to the machine itself. The calibration of force transducers is carried out as per the standard calibration procedure based on standard ISO 376-2004 using the automated 50 kN dead weight force machine (cmc ± 0.003% (<italic>k</italic>=2)) under similar conditions both in manual mode and automatic mode. The metrological characterization shows improved metrological results for the force transducers when the 50 kN dead weight force machine is used in automatic mode as compared to the manual mode.</p></abstract>

Continuously growing technologies and increasing quality requirements have exerted thrust to the metrological institutes to maintain a high level of calibration and measurement capabilities. Force, being very vital in various engineering and non - engineering applications, is measured by force transducers. Deviations in the values observed and mentioned in the calibration certificate for force transducers may primarily be due to the creep, time loading effect and temperature effect if not properly compensated. Beside these factors, machine interaction, parasitic components etc. pertaining to the quality of the force standard machine used for calibration also contribute to the deviations. An attempt has been made by National Physical Laboratory, India (NPLI) to automate the 50 kN dead weight force machine to minimize the influence of factors other than the factors related to the machine itself. The calibration of force transducers is carried out as per the standard calibration procedure based on standard ISO 376-2004 using the automated 50 kN dead weight force machine (cmc ± 0.003% (k=2)) under similar conditions both in manual mode and automatic mode. The metrological characterization shows improved metrological results for the force transducers when the 50 kN dead weight force machine is used in automatic mode as compared to the manual mode.

Improved Performance of 50 kN Dead Weight Force Machine using Automation as a Tool

National Physical Laboratory, Council of Scientific & Industrial Research, New Delhi, 110012, India

Measurement Science Review

Continuously growing technologies and increasing quality requirements have exerted thrust to the metrological institutes to maintain a high level of...

Improved Performance of 50 kN Dead Weight Force Machine using Automation as a Tool

Publicado en línea: 03 jun 2011

Páginas: 67 - 70

DOI: https://doi.org/10.2478/v10048-011-0013-2

Palabras clave
Dead weight force machine, automation, force

This content is open access.

Improved Performance of 50 kN Dead Weight Force Machine using Automation as a Tool

Publicado en línea: 03 jun 2011

Páginas: 67 - 70

DOI: https://doi.org/10.2478/v10048-011-0013-2

Palabras claveDead weight force machine, automation, force

This content is open access.

Palabras clave
Dead weight force machine, automation, force