Influence of mechanical properties of welded joint regions on pipeline structural integrity
Апстракт
In this paper, a material characterization inverse methodology is used to obtain
structural parameters for all welded joint regions. Furthermore, such are applied for
the more realistic analysis of the pipeline numerical model structural response.
Material characterization methodology included tensile testing of specimen
containing welded joint. During the experiment strain field was continuously
measured using stereo cameras, and results are processed using system based on
Digital Image Correlation. Numerical computational model of test pipe is formed
using the same parameters, as in the experiment (shape of welded joint, boundary
conditions, loads, etc.). To improve numerical model, deformations of all regions of
welded joint (base material, weld metal, and heat affected zone) are imported into
numerical model. Consequently, material properties (Young’s modulus of elasticity,
yield strength, tensile strength) of all three welded joint regions were obtained.
Material prope...rties are then used in analysis of welded joint influence to structural
integrity. Three different numerical computational models are produced. The first
model represents the classical approach in which the welded joint parameters are
not considered. The second model contained welded joints, but with orientational
mechanical properties of base and weld metal, and with heat affected zone having
properties same as base material. The third one included properties of all three
welded joint regions, obtained using inverse methodology. Results showed that there
is no difference between the models during service operations (elastic structural
behaviour). However, within the plastic deformation domain, which for instance,
accounts for hydraulic shocks, the differences are considerable. When orientational
mechanical properties of base and weld material are included, stress concentration
in welded joint is 1.59. When real properties of material are included, stress
concentration is decreased to 1.49, while stress gradient in welded joint area is
smaller than in previous model. Thus, welded joint modelling can vastly influence the
plastic domain structural behaviour of the pipeline structure.
Кључне речи:
welded joint regions / inite element method / pipelineИзвор:
The 27th International Conference on Fracture and Structural Integrity, 2023, 182-183Финансирање / пројекти:
- Министарство науке, технолошког развоја и иновација Републике Србије, институционално финансирање - 200105 (Универзитет у Београду, Машински факултет) (RS-MESTD-inst-2020-200105)
Институција/група
Mašinski fakultetTY - CONF AU - Petrović, Ana AU - Momčilović, Nikola AU - Aranđelović, Mihajlo AU - Đorđević, Branislav AU - Sedmak, Simon PY - 2023 UR - https://machinery.mas.bg.ac.rs/handle/123456789/6026 AB - In this paper, a material characterization inverse methodology is used to obtain structural parameters for all welded joint regions. Furthermore, such are applied for the more realistic analysis of the pipeline numerical model structural response. Material characterization methodology included tensile testing of specimen containing welded joint. During the experiment strain field was continuously measured using stereo cameras, and results are processed using system based on Digital Image Correlation. Numerical computational model of test pipe is formed using the same parameters, as in the experiment (shape of welded joint, boundary conditions, loads, etc.). To improve numerical model, deformations of all regions of welded joint (base material, weld metal, and heat affected zone) are imported into numerical model. Consequently, material properties (Young’s modulus of elasticity, yield strength, tensile strength) of all three welded joint regions were obtained. Material properties are then used in analysis of welded joint influence to structural integrity. Three different numerical computational models are produced. The first model represents the classical approach in which the welded joint parameters are not considered. The second model contained welded joints, but with orientational mechanical properties of base and weld metal, and with heat affected zone having properties same as base material. The third one included properties of all three welded joint regions, obtained using inverse methodology. Results showed that there is no difference between the models during service operations (elastic structural behaviour). However, within the plastic deformation domain, which for instance, accounts for hydraulic shocks, the differences are considerable. When orientational mechanical properties of base and weld material are included, stress concentration in welded joint is 1.59. When real properties of material are included, stress concentration is decreased to 1.49, while stress gradient in welded joint area is smaller than in previous model. Thus, welded joint modelling can vastly influence the plastic domain structural behaviour of the pipeline structure. C3 - The 27th International Conference on Fracture and Structural Integrity T1 - Influence of mechanical properties of welded joint regions on pipeline structural integrity EP - 183 SP - 182 UR - https://hdl.handle.net/21.15107/rcub_machinery_6026 ER -
@conference{ author = "Petrović, Ana and Momčilović, Nikola and Aranđelović, Mihajlo and Đorđević, Branislav and Sedmak, Simon", year = "2023", abstract = "In this paper, a material characterization inverse methodology is used to obtain structural parameters for all welded joint regions. Furthermore, such are applied for the more realistic analysis of the pipeline numerical model structural response. Material characterization methodology included tensile testing of specimen containing welded joint. During the experiment strain field was continuously measured using stereo cameras, and results are processed using system based on Digital Image Correlation. Numerical computational model of test pipe is formed using the same parameters, as in the experiment (shape of welded joint, boundary conditions, loads, etc.). To improve numerical model, deformations of all regions of welded joint (base material, weld metal, and heat affected zone) are imported into numerical model. Consequently, material properties (Young’s modulus of elasticity, yield strength, tensile strength) of all three welded joint regions were obtained. Material properties are then used in analysis of welded joint influence to structural integrity. Three different numerical computational models are produced. The first model represents the classical approach in which the welded joint parameters are not considered. The second model contained welded joints, but with orientational mechanical properties of base and weld metal, and with heat affected zone having properties same as base material. The third one included properties of all three welded joint regions, obtained using inverse methodology. Results showed that there is no difference between the models during service operations (elastic structural behaviour). However, within the plastic deformation domain, which for instance, accounts for hydraulic shocks, the differences are considerable. When orientational mechanical properties of base and weld material are included, stress concentration in welded joint is 1.59. When real properties of material are included, stress concentration is decreased to 1.49, while stress gradient in welded joint area is smaller than in previous model. Thus, welded joint modelling can vastly influence the plastic domain structural behaviour of the pipeline structure.", journal = "The 27th International Conference on Fracture and Structural Integrity", title = "Influence of mechanical properties of welded joint regions on pipeline structural integrity", pages = "183-182", url = "https://hdl.handle.net/21.15107/rcub_machinery_6026" }
Petrović, A., Momčilović, N., Aranđelović, M., Đorđević, B.,& Sedmak, S.. (2023). Influence of mechanical properties of welded joint regions on pipeline structural integrity. in The 27th International Conference on Fracture and Structural Integrity, 182-183. https://hdl.handle.net/21.15107/rcub_machinery_6026
Petrović A, Momčilović N, Aranđelović M, Đorđević B, Sedmak S. Influence of mechanical properties of welded joint regions on pipeline structural integrity. in The 27th International Conference on Fracture and Structural Integrity. 2023;:182-183. https://hdl.handle.net/21.15107/rcub_machinery_6026 .
Petrović, Ana, Momčilović, Nikola, Aranđelović, Mihajlo, Đorđević, Branislav, Sedmak, Simon, "Influence of mechanical properties of welded joint regions on pipeline structural integrity" in The 27th International Conference on Fracture and Structural Integrity (2023):182-183, https://hdl.handle.net/21.15107/rcub_machinery_6026 .