HASIOTIS, Theodoros ;BADOGIANNIS, Efstratios ;TSOUVALIS, Nicolaos Georgios. Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials. Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 57, n.3, p. 192-203, june 2018. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/article/application-of-ultrasonic-c-scan-techniques-for-tracing-defects-in-laminated-composite-materials/>. Date accessed: 20 dec. 2024. doi:http://dx.doi.org/10.5545/sv-jme.2010.170.
Hasiotis, T., Badogiannis, E., & Tsouvalis, N. (2011). Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials. Strojniški vestnik - Journal of Mechanical Engineering, 57(3), 192-203. doi:http://dx.doi.org/10.5545/sv-jme.2010.170
@article{sv-jmesv-jme.2010.170, author = {Theodoros Hasiotis and Efstratios Badogiannis and Nicolaos Georgios Tsouvalis}, title = {Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {57}, number = {3}, year = {2011}, keywords = {composites; ultrasonic inspection; c-scan techniques; defects; delamination; flaw detection; wrinkle}, abstract = {In this paper practical ultrasonic C-scan techniques for NDT of laminated composite materials are developed and applied, with an aim to trace specific artificial defects. Two types of materials are examined; an advanced carbon/epoxy system and a typical marine type glass/polyester system. Both were constructed with two manufacturing methods (Hand Lay-Up and Vacuum Infusion). Several artificial defects were embedded into the test plates, varying in shape, magnitude and through thickness position. Test plates were C-scanned using ULTRAPAC II ultrasonic system with ULTRAWIN software and typical examination techniques (layer to layer examination, full width examination, etc.) were used to determine and characterize defects. In addition, appropriate software tuning procedures and examination strategies were applied, which further developed and optimised tthe scanning procedure. These efforts resulted in effective C-scan images, allowing the determination of the position and even the shape of the defects in some cases. Finally, precise determination of specimens’ thickness was achieved.}, issn = {0039-2480}, pages = {192-203}, doi = {10.5545/sv-jme.2010.170}, url = {https://www.sv-jme.eu/article/application-of-ultrasonic-c-scan-techniques-for-tracing-defects-in-laminated-composite-materials/} }
Hasiotis, T.,Badogiannis, E.,Tsouvalis, N. 2011 June 57. Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 57:3
%A Hasiotis, Theodoros %A Badogiannis, Efstratios %A Tsouvalis, Nicolaos Georgios %D 2011 %T Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials %B 2011 %9 composites; ultrasonic inspection; c-scan techniques; defects; delamination; flaw detection; wrinkle %! Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials %K composites; ultrasonic inspection; c-scan techniques; defects; delamination; flaw detection; wrinkle %X In this paper practical ultrasonic C-scan techniques for NDT of laminated composite materials are developed and applied, with an aim to trace specific artificial defects. Two types of materials are examined; an advanced carbon/epoxy system and a typical marine type glass/polyester system. Both were constructed with two manufacturing methods (Hand Lay-Up and Vacuum Infusion). Several artificial defects were embedded into the test plates, varying in shape, magnitude and through thickness position. Test plates were C-scanned using ULTRAPAC II ultrasonic system with ULTRAWIN software and typical examination techniques (layer to layer examination, full width examination, etc.) were used to determine and characterize defects. In addition, appropriate software tuning procedures and examination strategies were applied, which further developed and optimised tthe scanning procedure. These efforts resulted in effective C-scan images, allowing the determination of the position and even the shape of the defects in some cases. Finally, precise determination of specimens’ thickness was achieved. %U https://www.sv-jme.eu/article/application-of-ultrasonic-c-scan-techniques-for-tracing-defects-in-laminated-composite-materials/ %0 Journal Article %R 10.5545/sv-jme.2010.170 %& 192 %P 12 %J Strojniški vestnik - Journal of Mechanical Engineering %V 57 %N 3 %@ 0039-2480 %8 2018-06-28 %7 2018-06-28
Hasiotis, Theodoros, Efstratios Badogiannis, & Nicolaos Georgios Tsouvalis. "Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials." Strojniški vestnik - Journal of Mechanical Engineering [Online], 57.3 (2011): 192-203. Web. 20 Dec. 2024
TY - JOUR AU - Hasiotis, Theodoros AU - Badogiannis, Efstratios AU - Tsouvalis, Nicolaos Georgios PY - 2011 TI - Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials JF - Strojniški vestnik - Journal of Mechanical Engineering DO - 10.5545/sv-jme.2010.170 KW - composites; ultrasonic inspection; c-scan techniques; defects; delamination; flaw detection; wrinkle N2 - In this paper practical ultrasonic C-scan techniques for NDT of laminated composite materials are developed and applied, with an aim to trace specific artificial defects. Two types of materials are examined; an advanced carbon/epoxy system and a typical marine type glass/polyester system. Both were constructed with two manufacturing methods (Hand Lay-Up and Vacuum Infusion). Several artificial defects were embedded into the test plates, varying in shape, magnitude and through thickness position. Test plates were C-scanned using ULTRAPAC II ultrasonic system with ULTRAWIN software and typical examination techniques (layer to layer examination, full width examination, etc.) were used to determine and characterize defects. In addition, appropriate software tuning procedures and examination strategies were applied, which further developed and optimised tthe scanning procedure. These efforts resulted in effective C-scan images, allowing the determination of the position and even the shape of the defects in some cases. Finally, precise determination of specimens’ thickness was achieved. UR - https://www.sv-jme.eu/article/application-of-ultrasonic-c-scan-techniques-for-tracing-defects-in-laminated-composite-materials/
@article{{sv-jme}{sv-jme.2010.170}, author = {Hasiotis, T., Badogiannis, E., Tsouvalis, N.}, title = {Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {57}, number = {3}, year = {2011}, doi = {10.5545/sv-jme.2010.170}, url = {https://www.sv-jme.eu/article/application-of-ultrasonic-c-scan-techniques-for-tracing-defects-in-laminated-composite-materials/} }
TY - JOUR AU - Hasiotis, Theodoros AU - Badogiannis, Efstratios AU - Tsouvalis, Nicolaos Georgios PY - 2018/06/28 TI - Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials JF - Strojniški vestnik - Journal of Mechanical Engineering; Vol 57, No 3 (2011): Strojniški vestnik - Journal of Mechanical Engineering DO - 10.5545/sv-jme.2010.170 KW - composites, ultrasonic inspection, c-scan techniques, defects, delamination, flaw detection, wrinkle N2 - In this paper practical ultrasonic C-scan techniques for NDT of laminated composite materials are developed and applied, with an aim to trace specific artificial defects. Two types of materials are examined; an advanced carbon/epoxy system and a typical marine type glass/polyester system. Both were constructed with two manufacturing methods (Hand Lay-Up and Vacuum Infusion). Several artificial defects were embedded into the test plates, varying in shape, magnitude and through thickness position. Test plates were C-scanned using ULTRAPAC II ultrasonic system with ULTRAWIN software and typical examination techniques (layer to layer examination, full width examination, etc.) were used to determine and characterize defects. In addition, appropriate software tuning procedures and examination strategies were applied, which further developed and optimised tthe scanning procedure. These efforts resulted in effective C-scan images, allowing the determination of the position and even the shape of the defects in some cases. Finally, precise determination of specimens’ thickness was achieved. UR - https://www.sv-jme.eu/article/application-of-ultrasonic-c-scan-techniques-for-tracing-defects-in-laminated-composite-materials/
Hasiotis, Theodoros, Badogiannis, Efstratios, AND Tsouvalis, Nicolaos. "Application of Ultrasonic C-Scan Techniques for Tracing Defects in Laminated Composite Materials" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 57 Number 3 (28 June 2018)
Strojniški vestnik - Journal of Mechanical Engineering 57(2011)3, 192-203
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.
In this paper practical ultrasonic C-scan techniques for NDT of laminated composite materials are developed and applied, with an aim to trace specific artificial defects. Two types of materials are examined; an advanced carbon/epoxy system and a typical marine type glass/polyester system. Both were constructed with two manufacturing methods (Hand Lay-Up and Vacuum Infusion). Several artificial defects were embedded into the test plates, varying in shape, magnitude and through thickness position. Test plates were C-scanned using ULTRAPAC II ultrasonic system with ULTRAWIN software and typical examination techniques (layer to layer examination, full width examination, etc.) were used to determine and characterize defects. In addition, appropriate software tuning procedures and examination strategies were applied, which further developed and optimised tthe scanning procedure. These efforts resulted in effective C-scan images, allowing the determination of the position and even the shape of the defects in some cases. Finally, precise determination of specimens’ thickness was achieved.