TY  - CONF
AU  - Bek-Uzarov, D
AU  - Zekovic, L
AU  - Kovačević, Milojko
AU  - Maglic, K
AU  - Novković, Dušan N.
AU  - Stanković, Dalibor M.
PY  - 2002
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/6477
AB  - Research and development of advanced metrology began at 1950 as a need in research and development of various research projects, particularly national projects as it was the Nuclear Reactor start up for research purposes and for radionuclide production. At this time no commercial offer of various I detectors, measuring sensors, other measuring devices were not been commercially available. Therefore young physicists were collected ill working groups with the task in diploma work, master degrees, to create and to build up the own instrumentation. During the years the ionising radiation ad heat metrology, in some metrology branch, maturated up to the world scientific level. Some of devices after are used for research purposes, were applied in public economy as well. Very similar development pathways were in other research institutes that are not in this paper described. Two groups in ionizing radiation metrology and a large heat and temperature metrology laboratory were organized. The primary heat and temperature standardization, as well as the primary standards in heat, temperature, radioactivity measurements and ionizing radiation dosimetry group were as the National metrology laboratory completed. The both of them, were by international intercomparaisons own meteorological qualification verified. Very similar metrology developments were in other research institutes in this paper presented. So, Institute of Physics and Faculty of Sciences at the Belgrade University has been performed black body temperature measurements, which some of them are currently for the customer produced, are also ill paper treated. Metrology education at the universities and pos-graduate level with syllabus program at the tree Serbian Universities in Belgrade, Novi Sad and Kragujevac are in paper described. Standardization of physical quantities, units, physical constants in International Measuring System-SI is also described. Because of some technical difficulties to get the competent and relevant documentation, only a part of research laboratories, dealing in advanced metrology achievement, are in this paper described.
T1  - Metrology and standardization
VL  - 104
SP  - 391
EP  - 432
UR  - https://hdl.handle.net/21.15107/rcub_vinar_6477
ER  - 

@conference{
author = "Bek-Uzarov, D and Zekovic, L and Kovačević, Milojko and Maglic, K and Novković, Dušan N. and Stanković, Dalibor M.",
year = "2002",
abstract = "Research and development of advanced metrology began at 1950 as a need in research and development of various research projects, particularly national projects as it was the Nuclear Reactor start up for research purposes and for radionuclide production. At this time no commercial offer of various I detectors, measuring sensors, other measuring devices were not been commercially available. Therefore young physicists were collected ill working groups with the task in diploma work, master degrees, to create and to build up the own instrumentation. During the years the ionising radiation ad heat metrology, in some metrology branch, maturated up to the world scientific level. Some of devices after are used for research purposes, were applied in public economy as well. Very similar development pathways were in other research institutes that are not in this paper described. Two groups in ionizing radiation metrology and a large heat and temperature metrology laboratory were organized. The primary heat and temperature standardization, as well as the primary standards in heat, temperature, radioactivity measurements and ionizing radiation dosimetry group were as the National metrology laboratory completed. The both of them, were by international intercomparaisons own meteorological qualification verified. Very similar metrology developments were in other research institutes in this paper presented. So, Institute of Physics and Faculty of Sciences at the Belgrade University has been performed black body temperature measurements, which some of them are currently for the customer produced, are also ill paper treated. Metrology education at the universities and pos-graduate level with syllabus program at the tree Serbian Universities in Belgrade, Novi Sad and Kragujevac are in paper described. Standardization of physical quantities, units, physical constants in International Measuring System-SI is also described. Because of some technical difficulties to get the competent and relevant documentation, only a part of research laboratories, dealing in advanced metrology achievement, are in this paper described.",
title = "Metrology and standardization",
volume = "104",
pages = "391-432",
url = "https://hdl.handle.net/21.15107/rcub_vinar_6477"
}

Bek-Uzarov, D., Zekovic, L., Kovačević, M., Maglic, K., Novković, D. N.,& Stanković, D. M.. (2002). Metrology and standardization. , 104, 391-432.
https://hdl.handle.net/21.15107/rcub_vinar_6477

Bek-Uzarov D, Zekovic L, Kovačević M, Maglic K, Novković DN, Stanković DM. Metrology and standardization. 2002;104:391-432.
https://hdl.handle.net/21.15107/rcub_vinar_6477 .

Bek-Uzarov, D, Zekovic, L, Kovačević, Milojko, Maglic, K, Novković, Dušan N., Stanković, Dalibor M., "Metrology and standardization", 104 (2002):391-432,
https://hdl.handle.net/21.15107/rcub_vinar_6477 .

TY  - JOUR
AU  - Stanimirovic, A
AU  - Vukovic, G
AU  - Maglic, K
PY  - 1999
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/6262
AB  - A variant of millisecond-resolution pulse calorimetry in use at the Institute of Nuclear Sciences Vinca since 1983 involves measuring the specific heat and electrical resistivity of electrical conductors from room temperature to 2500 K and the hemispherical total emissivity and normal spectral emissivity from about 1300 K to the same maximum operating temperature. The method was applied successfully to different materials: pure metals, ferrous and nickel-base alloys, reactor materials, and refractory metals in thermal characterization of candidates for thermophysical property standard reference materials. This paper presents and discusses new data obtained in the study of thermophysical and thermal optical properties of vanadium.
T2  - International Journal of Thermophysics
T1  - Thermophysical and thermal optical properties of vanadium by millisecond calorimetry between 300 and 1900 K
VL  - 20
IS  - 1
SP  - 325
EP  - 332
DO  - 10.1023/A:1021471423350
ER  - 

@article{
author = "Stanimirovic, A and Vukovic, G and Maglic, K",
year = "1999",
abstract = "A variant of millisecond-resolution pulse calorimetry in use at the Institute of Nuclear Sciences Vinca since 1983 involves measuring the specific heat and electrical resistivity of electrical conductors from room temperature to 2500 K and the hemispherical total emissivity and normal spectral emissivity from about 1300 K to the same maximum operating temperature. The method was applied successfully to different materials: pure metals, ferrous and nickel-base alloys, reactor materials, and refractory metals in thermal characterization of candidates for thermophysical property standard reference materials. This paper presents and discusses new data obtained in the study of thermophysical and thermal optical properties of vanadium.",
journal = "International Journal of Thermophysics",
title = "Thermophysical and thermal optical properties of vanadium by millisecond calorimetry between 300 and 1900 K",
volume = "20",
number = "1",
pages = "325-332",
doi = "10.1023/A:1021471423350"
}

Stanimirovic, A., Vukovic, G.,& Maglic, K.. (1999). Thermophysical and thermal optical properties of vanadium by millisecond calorimetry between 300 and 1900 K. in International Journal of Thermophysics, 20(1), 325-332.
https://doi.org/10.1023/A:1021471423350

Stanimirovic A, Vukovic G, Maglic K. Thermophysical and thermal optical properties of vanadium by millisecond calorimetry between 300 and 1900 K. in International Journal of Thermophysics. 1999;20(1):325-332.
doi:10.1023/A:1021471423350 .

Stanimirovic, A, Vukovic, G, Maglic, K, "Thermophysical and thermal optical properties of vanadium by millisecond calorimetry between 300 and 1900 K" in International Journal of Thermophysics, 20, no. 1 (1999):325-332,
https://doi.org/10.1023/A:1021471423350 . .