Experimental investigation of mechanical characteristics of composite plates under tensile loading
Apstrakt
Expansion of economic development also encourages the need for research, testing and application of new
advanced materials. Bearing in mind the development of technology and market dynamics in renewable energy
resources, especially wind potential, technology transfer in this field is very significant in all countries where
this industry is insufficiently developed. The advancement of wind turbines, as high-tech products and
components that require specific high quality characteristics, can influence the modernization of the
mechanical industry. For this reason, the development, testing, production and application of advanced highperformance
composite materials are of great importance.
The work presents the experimental testing and mechanical behaviour of composite structures under tensile
loading. Two types of carbon-epoxy plates and two types of glass-epoxy plates, of the same dimensions but
different ply lay-up sequences, were prepared and experimentally tested according to ...the procedure prescribed
by the tensile test standard ASTM D3039. The performance of the samples were first simulated in ANSYS
software in order to validate and verify the experimental set-up, and then experiments were performed under
tensile loading at the universal electromechanical test frame SHIMADZU AGS-X 100 kN. The experimentally
obtained modules of elasticity are presented. The measured values are also illustrated graphically in forcedisplacement
and stress-strain diagrams. The presented results acquired by this test method are important in
order to better understand the behaviour of composite structures under various load cases. The obtained
information and performed analysis of the measured parameters can be used in further experimental
investigations as well as in different comparative studies of conventional and unconventional empirical
methods.
Ključne reči:
Composite plate / Tensile test / Stress-strain / Experimental investigation / DisplacementIzvor:
International conference of experimental and numerical investigations and new technologies (2020 ; Zlatibor), 2020, 53-Finansiranje / projekti:
- Ministarstvo nauke, tehnološkog razvoja i inovacija Republike Srbije, institucionalno finansiranje - 200105 (Univerzitet u Beogradu, Mašinski fakultet) (RS-MESTD-inst-2020-200105)
Kolekcije
Institucija/grupa
Inovacioni centarTY - CONF AU - Baltić, Marija AU - Hasan, Mohammad Sakib AU - Milovanović, Aleksa PY - 2020 UR - https://machinery.mas.bg.ac.rs/handle/123456789/7362 AB - Expansion of economic development also encourages the need for research, testing and application of new advanced materials. Bearing in mind the development of technology and market dynamics in renewable energy resources, especially wind potential, technology transfer in this field is very significant in all countries where this industry is insufficiently developed. The advancement of wind turbines, as high-tech products and components that require specific high quality characteristics, can influence the modernization of the mechanical industry. For this reason, the development, testing, production and application of advanced highperformance composite materials are of great importance. The work presents the experimental testing and mechanical behaviour of composite structures under tensile loading. Two types of carbon-epoxy plates and two types of glass-epoxy plates, of the same dimensions but different ply lay-up sequences, were prepared and experimentally tested according to the procedure prescribed by the tensile test standard ASTM D3039. The performance of the samples were first simulated in ANSYS software in order to validate and verify the experimental set-up, and then experiments were performed under tensile loading at the universal electromechanical test frame SHIMADZU AGS-X 100 kN. The experimentally obtained modules of elasticity are presented. The measured values are also illustrated graphically in forcedisplacement and stress-strain diagrams. The presented results acquired by this test method are important in order to better understand the behaviour of composite structures under various load cases. The obtained information and performed analysis of the measured parameters can be used in further experimental investigations as well as in different comparative studies of conventional and unconventional empirical methods. C3 - International conference of experimental and numerical investigations and new technologies (2020 ; Zlatibor) T1 - Experimental investigation of mechanical characteristics of composite plates under tensile loading SP - 53 UR - https://hdl.handle.net/21.15107/rcub_machinery_7362 ER -
@conference{ author = "Baltić, Marija and Hasan, Mohammad Sakib and Milovanović, Aleksa", year = "2020", abstract = "Expansion of economic development also encourages the need for research, testing and application of new advanced materials. Bearing in mind the development of technology and market dynamics in renewable energy resources, especially wind potential, technology transfer in this field is very significant in all countries where this industry is insufficiently developed. The advancement of wind turbines, as high-tech products and components that require specific high quality characteristics, can influence the modernization of the mechanical industry. For this reason, the development, testing, production and application of advanced highperformance composite materials are of great importance. The work presents the experimental testing and mechanical behaviour of composite structures under tensile loading. Two types of carbon-epoxy plates and two types of glass-epoxy plates, of the same dimensions but different ply lay-up sequences, were prepared and experimentally tested according to the procedure prescribed by the tensile test standard ASTM D3039. The performance of the samples were first simulated in ANSYS software in order to validate and verify the experimental set-up, and then experiments were performed under tensile loading at the universal electromechanical test frame SHIMADZU AGS-X 100 kN. The experimentally obtained modules of elasticity are presented. The measured values are also illustrated graphically in forcedisplacement and stress-strain diagrams. The presented results acquired by this test method are important in order to better understand the behaviour of composite structures under various load cases. The obtained information and performed analysis of the measured parameters can be used in further experimental investigations as well as in different comparative studies of conventional and unconventional empirical methods.", journal = "International conference of experimental and numerical investigations and new technologies (2020 ; Zlatibor)", title = "Experimental investigation of mechanical characteristics of composite plates under tensile loading", pages = "53", url = "https://hdl.handle.net/21.15107/rcub_machinery_7362" }
Baltić, M., Hasan, M. S.,& Milovanović, A.. (2020). Experimental investigation of mechanical characteristics of composite plates under tensile loading. in International conference of experimental and numerical investigations and new technologies (2020 ; Zlatibor), 53. https://hdl.handle.net/21.15107/rcub_machinery_7362
Baltić M, Hasan MS, Milovanović A. Experimental investigation of mechanical characteristics of composite plates under tensile loading. in International conference of experimental and numerical investigations and new technologies (2020 ; Zlatibor). 2020;:53. https://hdl.handle.net/21.15107/rcub_machinery_7362 .
Baltić, Marija, Hasan, Mohammad Sakib, Milovanović, Aleksa, "Experimental investigation of mechanical characteristics of composite plates under tensile loading" in International conference of experimental and numerical investigations and new technologies (2020 ; Zlatibor) (2020):53, https://hdl.handle.net/21.15107/rcub_machinery_7362 .