Development of a tool for measuring the effect of surface roughness on steel structural response
Autori
Mijatović, OgnjenMišković, Zoran
Salatić, Ratko
Golubović - Bugarski, Valentina
Guzijan - Dilber, Matija
Konferencijski prilog (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Driven by the industry's needs to address energy dissipation issues in mechanical connections,
the set goals of the global scientific community, and previous research efforts to interpret how
the condition of contact surfaces between two bodies in contact can be significant, a unique
experimental setup has been devised to study the impact of the state of contact interaction
between two bodies on the system's response. The purpose of the designed experimental setup
is to correlate the roughness of contact surfaces with the deformation of a specially designed
experimental sample. The roughness of contact surfaces represents the most dominant
influencing factor in the contact interaction of two bodies. In terms of scale, the study,
measurement, and analysis of surface roughness fall under the micro and nano scales. On the
other hand, the change in deformation of the experimental sample as a result of the change in
roughness falls under the macro scale. Based on all the aforement...ioned, the fundamental idea of
the designed experimental setup can be seen. Considering that it is not possible to enter into
contact interaction and explicitly analyse the influence of roughness on the response of a
mechanical connection, the idea in overall research is to consider the macro behaviour of a
specially prepared experimental sample depending on the level of roughness of the contact
interaction surfaces at the micro level. The aim of this paper is to present details and challenges
in the construction of an instrument necessary for such precise examinations, named “Precision
Press with Arcs”.
Ključne reči:
Experimental testing / Roughness, Micro scale / Friction, Mechanical jointsIzvor:
The ninth international conference civil engineering science & practice, GNP 2024 proceedings, Kolašin, 5-9 March, 2024, 2024, 249-256Izdavač:
- University of Montenegro Faculty of Civil Engineering
Finansiranje / projekti:
- Ministarstvo nauke, tehnološkog razvoja i inovacija Republike Srbije, institucionalno finansiranje - 200092 (Univerzitet u Beogradu, Građevinski fakultet) (RS-MESTD-inst-2020-200092)
Institucija/grupa
GraFarTY - CONF AU - Mijatović, Ognjen AU - Mišković, Zoran AU - Salatić, Ratko AU - Golubović - Bugarski, Valentina AU - Guzijan - Dilber, Matija PY - 2024 UR - https://grafar.grf.bg.ac.rs/handle/123456789/3470 AB - Driven by the industry's needs to address energy dissipation issues in mechanical connections, the set goals of the global scientific community, and previous research efforts to interpret how the condition of contact surfaces between two bodies in contact can be significant, a unique experimental setup has been devised to study the impact of the state of contact interaction between two bodies on the system's response. The purpose of the designed experimental setup is to correlate the roughness of contact surfaces with the deformation of a specially designed experimental sample. The roughness of contact surfaces represents the most dominant influencing factor in the contact interaction of two bodies. In terms of scale, the study, measurement, and analysis of surface roughness fall under the micro and nano scales. On the other hand, the change in deformation of the experimental sample as a result of the change in roughness falls under the macro scale. Based on all the aforementioned, the fundamental idea of the designed experimental setup can be seen. Considering that it is not possible to enter into contact interaction and explicitly analyse the influence of roughness on the response of a mechanical connection, the idea in overall research is to consider the macro behaviour of a specially prepared experimental sample depending on the level of roughness of the contact interaction surfaces at the micro level. The aim of this paper is to present details and challenges in the construction of an instrument necessary for such precise examinations, named “Precision Press with Arcs”. PB - University of Montenegro Faculty of Civil Engineering C3 - The ninth international conference civil engineering science & practice, GNP 2024 proceedings, Kolašin, 5-9 March, 2024 T1 - Development of a tool for measuring the effect of surface roughness on steel structural response EP - 256 SP - 249 UR - https://hdl.handle.net/21.15107/rcub_grafar_3470 ER -
@conference{ author = "Mijatović, Ognjen and Mišković, Zoran and Salatić, Ratko and Golubović - Bugarski, Valentina and Guzijan - Dilber, Matija", year = "2024", abstract = "Driven by the industry's needs to address energy dissipation issues in mechanical connections, the set goals of the global scientific community, and previous research efforts to interpret how the condition of contact surfaces between two bodies in contact can be significant, a unique experimental setup has been devised to study the impact of the state of contact interaction between two bodies on the system's response. The purpose of the designed experimental setup is to correlate the roughness of contact surfaces with the deformation of a specially designed experimental sample. The roughness of contact surfaces represents the most dominant influencing factor in the contact interaction of two bodies. In terms of scale, the study, measurement, and analysis of surface roughness fall under the micro and nano scales. On the other hand, the change in deformation of the experimental sample as a result of the change in roughness falls under the macro scale. Based on all the aforementioned, the fundamental idea of the designed experimental setup can be seen. Considering that it is not possible to enter into contact interaction and explicitly analyse the influence of roughness on the response of a mechanical connection, the idea in overall research is to consider the macro behaviour of a specially prepared experimental sample depending on the level of roughness of the contact interaction surfaces at the micro level. The aim of this paper is to present details and challenges in the construction of an instrument necessary for such precise examinations, named “Precision Press with Arcs”.", publisher = "University of Montenegro Faculty of Civil Engineering", journal = "The ninth international conference civil engineering science & practice, GNP 2024 proceedings, Kolašin, 5-9 March, 2024", title = "Development of a tool for measuring the effect of surface roughness on steel structural response", pages = "256-249", url = "https://hdl.handle.net/21.15107/rcub_grafar_3470" }
Mijatović, O., Mišković, Z., Salatić, R., Golubović - Bugarski, V.,& Guzijan - Dilber, M.. (2024). Development of a tool for measuring the effect of surface roughness on steel structural response. in The ninth international conference civil engineering science & practice, GNP 2024 proceedings, Kolašin, 5-9 March, 2024 University of Montenegro Faculty of Civil Engineering., 249-256. https://hdl.handle.net/21.15107/rcub_grafar_3470
Mijatović O, Mišković Z, Salatić R, Golubović - Bugarski V, Guzijan - Dilber M. Development of a tool for measuring the effect of surface roughness on steel structural response. in The ninth international conference civil engineering science & practice, GNP 2024 proceedings, Kolašin, 5-9 March, 2024. 2024;:249-256. https://hdl.handle.net/21.15107/rcub_grafar_3470 .
Mijatović, Ognjen, Mišković, Zoran, Salatić, Ratko, Golubović - Bugarski, Valentina, Guzijan - Dilber, Matija, "Development of a tool for measuring the effect of surface roughness on steel structural response" in The ninth international conference civil engineering science & practice, GNP 2024 proceedings, Kolašin, 5-9 March, 2024 (2024):249-256, https://hdl.handle.net/21.15107/rcub_grafar_3470 .