References
- Abdullah NAZ, Sani MSM, Salwani MS, et al. A review on crashworthiness studies of crash box structure. Thin-Walled Struct. 2020; Volume 153:106795. ISSN0263-8231.
- Balaji G, Annamalai K. An experimental and numerical scrutiny of crashworthiness variables for square column with V-notch and groove initiators under quasi-static loading. Cogent Engineering. 2017;4(1)
- Atlin M, Kilinçkaya U, Acar E, et al. Investigation of combined effects of cross section, taper angle and cell structure on crashworthiness of multi-cell thin-walled tubes, international journal of crashworthiness. DOI: 10.1080/13588265.2017.1410338. 2017;
- Yuan L, Shi H, Ma J, et al. Quasi-static impact of origami crash boxes with various profiles. Thin-Walled Struct. 2019;141:435–446. volume PagesISSN02638231.
- Altin M, Acar E, Güler MA. Foam filling options for crashworthiness optimization of thin-walled multi-tubular circular columns. Thin-Walled Struct. 2018;131:309–323. volume PagesISSN 0263–8231.
- Murat A. Investigation of performances of energy absorbing profiles having different geometries under oblique loads. Journal of the Faculty of Engineering and Architecture of Gazi University. 2019;34:1517–1526. DOI: 10.17341/gazimmfd.460549.
- Sarage S, Agrewale MRB, Vora KC. Design and optimization of Crash-Box of passenger vehicle to enhance energy absorption. SAE International, 2019.
- Altin M, Güler MA, Mert SK. The effect of percent foam fill ratio on the energy absorption capacity of axially compressed thin-walled multi-cell square and circular tubes. Int J Mech Sci. 2017;131-132:368–379. umes PagesISSN 0020–7403.
- Limousin V, Delgerie X, Leroy E, et al. Advanced model order reduction and artificial intelligence techniques empowering advanced structural mechanics simulations: application to crash test analyses. Mechanics & Industry. 2019;20(8):804.
- NHTSA 2020. Crash Simulation Vehicle Models [2020 October 25]. Available at: https://www.nhtsa.gov/crash-simulation-vehicle-models.
- VPS (Virtual Performance Solution) Solver Reference Manual, ESI Group, Vol1-6, Version 2017.0.
- Balaji G, Annamalai K. Numerical investigation of honeycomb filled crash box for the effect of honeycomb's physical parameters on crashworthiness constants. Int J Crashworthiness. 2018;24:115.
- Abramowicz W, Jones N. Dynamic axial crushing of square tubes. Int J Impact Eng. 1984;2(2):179–208. Issue PagesISSN0734743X.
- Mamalis AG, Manolakos DE, Spentzas KN, et al. The effect of the implementation of circular holes as crush initiators to the crushing characteristics of mild steel square tubes: experimental and numerical simulation. Int J Crashworthiness. 2009;14(5):489–501.
- Balaji G, Annamalai K. Crushing response of square aluminium column filled with carbon fibre tubes and aluminium honeycomb. Thin-Walled Struct. 2018;132:667–681.
- Balaji G, Annamalai K. | Duc Pham (Reviewing Editor) 2017. An experimental and numerical scrutiny of crashworthiness variables for square column with V-notch and groove initiators under quasi-static loading, Cogent Engineering, 4:1.
- Xiang Y, Wang Q, Fan Z, et al. Hongbing fang, optimal crashworthiness design of a spot-welded thin-walled hat section. Finite Elem Anal Des. 2006;42(10):846–855.
- Liu Y. Design optimisation of tapered thin-walled square tubes. Int J Crashworthiness. 2008;13(5):543–550.
- Chinesta F, Leygue A, Bordeu F, et al. PGD-Based computational vademecum for efficient design, optimization and control. Arch Computat Methods Eng. 2013;20(1):31–59.
- Rubén Ibáñez, Emmanuelle Abisset-Chavanne, Amine Ammar, David González, Elías Cueto, Antonio Huerta, Jean Louis Duval, Francisco Chinesta, "A multidimensional Data-Driven sparse identification technique: the sparse proper GeneralizedDecomposition", Complexity, 1, 11, vol. 2018, ArticleID 5608286, 11 pages, 2018.
- Altin M, Kılınçkaya Ü, Acar E, et al. Investigation of combined effects of cross section, taper angle and cell structure on crashworthiness of multi-cell thin-walled tubes. Int J Crashworthiness. 2019;24(2):121–136.
- Abramowicz W. The effective crushing distance in axially compressed thin-walled metal columns. Int J Impact Eng. 1983;1(3):309–317.
- Altin M. Investigation of performances of energy absorbing profiles having different geometries under oblique loads. J Facul Eng Architect of Gazi Univ. 2019;34:1517–1526.