Numerical and experimental determination of stress concentration factor for a pipe branch model
Апстракт
The subject of this paper is testing of complex geometrical structures, i.e. stress analysis of a pipe branch model of A6 third pipeline at Hydropower Plant Perucica, Niksic. Analysis of pipe branch model stress distribution was carried out by using finite element method and experimental methods. Finite element method defined 3D pipe branch model. Numerical calculation defined critical locations on model, i.e. locations with the greatest stress concentration. Strain gauges were placed on identified critical locations. Measured stress values confirmed values obtained by using numerical calculation. Experimental measurements were also taken by using new digital image correlation (DIC) method. DIC method is an optical non-contact method that can provide full 3D stress field and enables better understanding of complex structures such as pipe branches. The aim of this paper was to determine stress concentration factor for the pipe branch model by using numerical and experimental analysis.
Кључне речи:
stress concentration factor / strain gauges / pipe branch model / finite element method / 3D DIC methodИзвор:
Tehnički vjesnik, 2017, 24, 3, 687-692Издавач:
- Univ Osijek, Tech Fac, Slavonski Brod
Финансирање / пројекти:
- Развој савремених метода дијагностике и испитивања машинских структура (RS-MESTD-Technological Development (TD or TR)-35040)
- Развој и примена метода и лабораторијске опреме за оцењивање усаглашености техничких производа (RS-MESTD-Technological Development (TD or TR)-35031)
DOI: 10.17559/TV-20151126222916
ISSN: 1330-3651
WoS: 000403788500006
Scopus: 2-s2.0-85020912193
Институција/група
Inovacioni centarTY - JOUR AU - Bajić, Darko AU - Momčilović, Nikola AU - Maneski, Taško AU - Balać, Martina AU - Kozak, Dražan AU - Culafić, Stefan PY - 2017 UR - https://machinery.mas.bg.ac.rs/handle/123456789/2521 AB - The subject of this paper is testing of complex geometrical structures, i.e. stress analysis of a pipe branch model of A6 third pipeline at Hydropower Plant Perucica, Niksic. Analysis of pipe branch model stress distribution was carried out by using finite element method and experimental methods. Finite element method defined 3D pipe branch model. Numerical calculation defined critical locations on model, i.e. locations with the greatest stress concentration. Strain gauges were placed on identified critical locations. Measured stress values confirmed values obtained by using numerical calculation. Experimental measurements were also taken by using new digital image correlation (DIC) method. DIC method is an optical non-contact method that can provide full 3D stress field and enables better understanding of complex structures such as pipe branches. The aim of this paper was to determine stress concentration factor for the pipe branch model by using numerical and experimental analysis. PB - Univ Osijek, Tech Fac, Slavonski Brod T2 - Tehnički vjesnik T1 - Numerical and experimental determination of stress concentration factor for a pipe branch model EP - 692 IS - 3 SP - 687 VL - 24 DO - 10.17559/TV-20151126222916 ER -
@article{ author = "Bajić, Darko and Momčilović, Nikola and Maneski, Taško and Balać, Martina and Kozak, Dražan and Culafić, Stefan", year = "2017", abstract = "The subject of this paper is testing of complex geometrical structures, i.e. stress analysis of a pipe branch model of A6 third pipeline at Hydropower Plant Perucica, Niksic. Analysis of pipe branch model stress distribution was carried out by using finite element method and experimental methods. Finite element method defined 3D pipe branch model. Numerical calculation defined critical locations on model, i.e. locations with the greatest stress concentration. Strain gauges were placed on identified critical locations. Measured stress values confirmed values obtained by using numerical calculation. Experimental measurements were also taken by using new digital image correlation (DIC) method. DIC method is an optical non-contact method that can provide full 3D stress field and enables better understanding of complex structures such as pipe branches. The aim of this paper was to determine stress concentration factor for the pipe branch model by using numerical and experimental analysis.", publisher = "Univ Osijek, Tech Fac, Slavonski Brod", journal = "Tehnički vjesnik", title = "Numerical and experimental determination of stress concentration factor for a pipe branch model", pages = "692-687", number = "3", volume = "24", doi = "10.17559/TV-20151126222916" }
Bajić, D., Momčilović, N., Maneski, T., Balać, M., Kozak, D.,& Culafić, S.. (2017). Numerical and experimental determination of stress concentration factor for a pipe branch model. in Tehnički vjesnik Univ Osijek, Tech Fac, Slavonski Brod., 24(3), 687-692. https://doi.org/10.17559/TV-20151126222916
Bajić D, Momčilović N, Maneski T, Balać M, Kozak D, Culafić S. Numerical and experimental determination of stress concentration factor for a pipe branch model. in Tehnički vjesnik. 2017;24(3):687-692. doi:10.17559/TV-20151126222916 .
Bajić, Darko, Momčilović, Nikola, Maneski, Taško, Balać, Martina, Kozak, Dražan, Culafić, Stefan, "Numerical and experimental determination of stress concentration factor for a pipe branch model" in Tehnički vjesnik, 24, no. 3 (2017):687-692, https://doi.org/10.17559/TV-20151126222916 . .