Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
| Русский Русский | English English |
 
Главная
23 | 11 | 2024
2024, 04 April

DOI: 10.14489/td.2024.04.pp.038-046

Golobokov M. V.
ANALYSIS OF MEASUREMENT ACCURACY DURING VERIFICATION OF MIT TEMPERATURE METERS
(pp. 38-46)

Abstract. The paper presents an algorithm and the results of calculating the confidence limits of the measurement error of resistance (voltage) during verification of multichannel precision temperature meters MIT 2 and MIT 8. It is established that the actual error value of the meter in operation can exceed the permissible value by 4.3 times. In the temperature equivalent, the additional error can reach 130% of the limit of the basic permissible error of the reference platinum resistance thermometer PTS-10M of the first category. The necessity of attributing the measurement results by MIT meters to the most responsible measurements, for which even the minimum excess of the permissible error is not allowed, is justified. The corresponding decision-making rule has been formulated. The minimum ratio of errors of the reference and verifiable measuring instruments has been determined, in which the probability of erroneous recognition of an obviously suitable meter as unsuitable does not exceed 0.3 – the limit set in MI 186-88 "GSI. Measuring instruments. Setting the parameters of the verification methods" values. The required error ratio is no worse than 1/2. For widely used meters MIT 2.05, MIT 8.10, MIT 8.15, methods are proposed to improve the accuracy of measurements and ensure the required reliability of verification using recommended standards. To verify the relatively new and most accurate meters MIT 8.20, MIT 8.30, the need to use a secondary resistance standard is justified. The work can be useful to specialists involved in the development, operation of temperature measuring instruments and their metrological support.

Keywords: temperature meter, conformity assessment, measurement accuracy as-sessment, verification.

M. V. Golobokov (State Regional Center of Standardization, Metrology and Testing in the Novosibirsk Region (FBA "Novosibirsk CSM"), Novosibirsk, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.  

1. Chunovkina A. G. (2008). On the issue of introducing measurement uncertainty in methods of verification (calibration) of measuring instruments. Izmeritel'naya tekhnika, (3), 70 – 72. [in Russian language]
2. Zhagora N. A. (2016). Influence of measurement accuracy on conformity assessment results. Kontrol' kachestva produktsii, (4), 29 – 34. [in Russian language]
3. Levin S. F. (2018). Quality of verification of meas-uring instruments and a posteriori reliability of control. Izmeritel'naya tekhnika, (9), 20 – 25. [in Russian language]
4. State verification scheme for temperature measuring instruments. (2022). Moscow: Izdatel'stvo standartov. [in Russian language]
5. Manual. Temperature meter two-channel precision MIT 2.05M. (2010). Operating manual No. 4211-105-56835627‒10 RE. Moscow: OOO «IzTekh». [in Russian language]
6. Manual. Multichannel precision temperature meters MIT 8. (2010). Operating manual No. 6. 4211-102-56835627‒10 RE. Moscow: OOO «IzTekh». [in Russian language]
7. Two-channel precision temperature meters MIT 8.20: Verification methodology. (2018). Verification method No. MP 2411-0165‒2018. Saint Petersburg: FGUP «VNIIM id. D. I. Mendeleeva». [in Russian language]
8. Multichannel precision temperature meters MIT 8.30. (2020). Verification method No. RT-MP-7649-442‒2020. Moscow: FBU «Rostest-Moskva». [in Russian language]
9. Multiple direct measurements. Methods for processing measurement results. Basic provisions. (2019). Ru Standard No. GOST 8.736‒2011. GSI. Moscow: Izdatel'stvo standartov. [in Russian language]
10. Measuring instruments. Setting parameters for verification methods. (1987). Methodical instructions MI 188‒86. GSI. Moscow: Standartinform. [in Russian lan-guage]
11. State verification scheme for measuring instruments of electrical resistance of direct and alternating current. (2019). Moscow: Standartinform. [in Russian language]
12. Calibrator-comparator KM-300K: instruction manual. (2013). Operation manual 0IUSN.140.008 RE. Krasnodar: OAO «Zipnauchpribor». [in Russian language]

This article  is available in electronic format (PDF).

The cost of a single article is 500 rubles. (including VAT 20%). After you place an order within a few days, you will receive following documents to your specified e-mail: account on payment and receipt to pay in the bank.

After depositing your payment on our bank account we send you file of the article by e-mail.

To order articles please copy the article doi:

10.14489/td.2024.04.pp.038-046

and fill out the  form  

 

 

 
Rambler's Top100 Яндекс цитирования