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Practical experiences with OIML R60. Sascha Mäuselein Oliver Mack. Table of contents. Excitation voltage Force introduction Material Types Embodiment Eccentricity Stability of temperature Air flow Settling- and Drying-effects. Table of contents. Excitation voltage
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Practical experiences with OIML R60 Sascha Mäuselein Oliver Mack
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Excitation voltage – creep Excitation voltage5 V Z = 5000 Excitation voltage10 V Z < 3000 Creep, DR and error limit of a C3-LC (300g)at 40°C as function of time
Excitation voltage – load cell errors Excitation voltage5 V Excitation voltage10 V Load cell errors of a 600 kg LC (C5)
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Force introduction – material Force introduction made ofstainless steel Y = 20000 Force introduction made ofaluminium Y = 4500 Influence of temperature on MDLO in v for a C3 LC and mpe for Y = 20000 as function of ambient temperature
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Force introduction – types Force introduction viaplatform n = 1500 Force introduction viasuspension gear n = 3000 Load cell errors of a 8kg single point LC (C3)
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Force introduction – embodiment Load cell errors of a LC for different punctual force introductions
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Eccentricity Mpe for class C3 and load cell errors in units of vas function of load for a 8 kg LC
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Stability of temperature Zero signal of a single point LC (C3, 140kg) in units of vas function of time at 40°C and 85%rH Variation of zero signal of 4 vat a variation of temperature of 2°C
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Air flow Zero signal of a single point LC (C3, 140kg) in units of vas function of time at 41°C and 85%rH Variation of zero signal of 0,5 v
Air flow Reduction ofair flow by a tent Zero signal of a single point LC (C3, 140kg) in units of vas function of time at 41°C and 85%rH; LC in tent Variation of zero signal of 0,02 v Reduction by a factor of 25
Table of contents • Excitation voltage • Force introduction • Material • Types • Embodiment • Eccentricity • Stability of temperature • Air flow • Settling- and Drying-effects
Settling- and drying-effects 1. first creep measurement at 20°C;after delivery 2. first creep measurement at 40°C -> failed -> failed
Settling- and drying-effects 3. first creep measurement at -10°C 4. repeat of creep measurement at 20°C -> passed -> passed
3 days storingat 40°C Settling- and drying-effects 5. repeat of creep measurement at 40°C 6. further creep measurement at 40°Cafter 3 days storing at 40°C -> passed -> failed
Table of contents • Excitation voltage -> Creep and LC error • Force introduction • Material -> Zero point (Y) • Types -> LC error • Embodiment -> LC error • Eccentricity -> LC error • Stability of temperature -> Zero signal, LC signal • Air flow -> Zero signal, LC signal • Settling- and Drying-effects -> Creep
Thank you for your attention Practical experiences with OIML R60 Sascha Mäuselein Oliver Mack