Effect of corrugated cardboard shape on the packing damping properties
https://doi.org/10.12737/18156
Abstract
About the Authors
I. R. AntypasRussian Federation
S. A. Partko
Russian Federation
A. N. Sirotenko
Russian Federation
References
1. Coles, R., ed. Upakovka pishchevykh produktov. [Food Packaging Technology.] St. Petersburg: Professiya, 2008, 416 p. (in Russian).
2. Heimbs, S. Middendorf, P., Maier, M. Honeycomb sandwich material modeling for dynamic simulations of aircraft interior components. Proceedings of the 9th international LS-DYNA users conference. Dearborn, 2006, pp. 201–206.
3. Elsayd, E.-A., Basily, B.-B. A Continuous Folding Process for Sheet Materials. International Journal of Materials & Product Technology, 2004, no. 21 (1/2/3), pp. 217–238.
4. Antypas, I. R., Partko, S.A. Sravnenie amortiziruyushchikh svoystv gofrirovannoy kartonnoy upakovki raznoy struktury pri deystvii vertikal'noy nagruzki. Sravnenie amortiziruyushchikh svoystv gofrirovannoy kartonnoy upakovki raznoy struktury pri deystvii vertikal'noy nagruzki [Comparison of damping properties of corrugated cardboard packaging of various structures under vertical load action.] Sostoyanie i perspektivy razvitiya sel'skokhozyaystvennogo mashinostroeniya: sb. statey 8-y mezhdunar. nauch.-prakt. konf. 3—6 marta 2015 g. v ramkakh 18-y mezhdunar. agroprom. vystavki «Interagromash- 2015». [State and prospects of development of agricultural machinery: Proc. 8th Int. Sci.-Pract. Conf. 3-6 March, 2015, within the framework of the 18th Int. Agro-industrial Exhibition “Interagromash-2015”.] Rostov-on-Don, 2015, pp. 232–234 (in Russian).
5. Antypas, I. R., Partko, S.A. Dempfiruyushchie svoystva gofrirovannogo upakovochnogo kartona sotovoy struktury. [Damping properties of the corrugated honeycomb packaging board.] Innovatsionnye tekhnologii v mashinostroenii i metallurgii : sb. statey VII nauch.-prakt. konf. [Innovative technologies in machine building and metallurgy: Proc. VII Sci.-Pract. Conf.] Rostov-on-Don, 2015, pp. 65–71 (in Russian).
6. Basily, B.-B., Elsayd, E.-A. Developments in sheet folding technology and applications. Proceedings of 2004 the NSF Design, Service and Manufacturing Grantees and Research Conference. Birmingham, Alabama, 2004, January, pp. 6–10.
7. Hanlon, J.F., Kelsey, R.J., Forcinio, H.; Zhavner, V.L., ed. Upakovka i tara: proektirovanie, tekhnologii, primenenie. [Packaging and containers: designing, technologies, application.] St. Petersburg: Professiya, 2006, 632 p. (in Russian).
8. Torre, L., Kenny, J.-M. Impact testing and simulation of composite sandwich structures. Composite Structures, 2000, vol. 50, iss. 3, pp. 257–256.
9. Vaidya, U.K., et al. Impact response of integrated hollow core sandwich composite panels. Composites. Part A: Applied Science & Manufacturing, 2000, no. 31, pp. 761–772.
10. Vanchakov, M.V., Keyzer, P.M., Dubovy, V.K. Tekhnologicheskoe oborudovanie dlya proizvodstva kartonnoy i bumazhnoy tary. [Technological equipment for cardboard and paper packaging production.] St. Petersburg: GTURP, 2014, 133 p. (in Russian).
11. Bangay, S. From virtual to physical reality with paper folding. Computational Geometry: Theory and Applications, 2000, no. 15, pp. 161–174.
Review
For citations:
Antypas I.R., Partko S.A., Sirotenko A.N. Effect of corrugated cardboard shape on the packing damping properties. Vestnik of Don State Technical University. 2016;16(1):36-42. (In Russ.) https://doi.org/10.12737/18156