DIACHENKO, Semen V. ;BALABANOV, Sergey V. ;SYCHOV, Maxim M. ;LITOSOV, German E. ;KIRYANOV, Nikita V. . The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements. Articles in Press, [S.l.], v. 0, n.0, p. 607-619, june 2024. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/article/impact-of-the-geometry-of-cellular-structure-of-glass-filled-polyamide-material-on-the-energy-absorbing-properties-of-design-elements/>. Date accessed: 22 nov. 2024. doi:http://dx.doi.org/10.5545/sv-jme.2024.975.
Diachenko, S., Balabanov, S., Sychov, M., Litosov, G., & Kiryanov, N. (0). The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements. Articles in Press, 0(0), 607-619. doi:http://dx.doi.org/10.5545/sv-jme.2024.975
@article{sv-jmesv-jme.2024.975, author = {Semen V. Diachenko and Sergey V. Balabanov and Maxim M. Sychov and German E. Litosov and Nikita V. Kiryanov}, title = {The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements}, journal = {Articles in Press}, volume = {0}, number = {0}, year = {0}, keywords = {additive technologies; selective laser sintering; polyamide; glass; triply periodic minimal surface; energy absorption; dampers; }, abstract = {Energy-absorbing properties of cellular materials with D, G, IWP*, N, P, Q, PJ triply minimal energy surface geometries were investigated. Materials were made of glass-filled polyamide by selective laser sintering. Mechanical properties of cellular structures were determined depending on the geometry: the highest specific compressive strength σsp.max >8 MPa∙cm3/g is possessed by samples with the geometry IWP* and PJ; the highest specific energy absorption Asp = 14.5 MJ/m3 is in the sample with the geometry N. A mass-strength criterion for cellular structures is proposed. The maximal values of mass-strength criterion are from samples with geometries N, IWP* and PJ; 4.16 MPa2/g, 3.51 MPa2/g, and 2.88 MPa2/g. The adequacy of applying the Gibson-Ashby equation for fabricated cellular materials with triply periodic minimal surfaces (TPMS) geometry has been proven.}, issn = {0039-2480}, pages = {607-619}, doi = {10.5545/sv-jme.2024.975}, url = {https://www.sv-jme.eu/article/impact-of-the-geometry-of-cellular-structure-of-glass-filled-polyamide-material-on-the-energy-absorbing-properties-of-design-elements/} }
Diachenko, S.,Balabanov, S.,Sychov, M.,Litosov, G.,Kiryanov, N. 0 June 0. The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements. Articles in Press. [Online] 0:0
%A Diachenko, Semen V. %A Balabanov, Sergey V. %A Sychov, Maxim M. %A Litosov, German E. %A Kiryanov, Nikita V. %D 0 %T The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements %B 0 %9 additive technologies; selective laser sintering; polyamide; glass; triply periodic minimal surface; energy absorption; dampers; %! The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements %K additive technologies; selective laser sintering; polyamide; glass; triply periodic minimal surface; energy absorption; dampers; %X Energy-absorbing properties of cellular materials with D, G, IWP*, N, P, Q, PJ triply minimal energy surface geometries were investigated. Materials were made of glass-filled polyamide by selective laser sintering. Mechanical properties of cellular structures were determined depending on the geometry: the highest specific compressive strength σsp.max >8 MPa∙cm3/g is possessed by samples with the geometry IWP* and PJ; the highest specific energy absorption Asp = 14.5 MJ/m3 is in the sample with the geometry N. A mass-strength criterion for cellular structures is proposed. The maximal values of mass-strength criterion are from samples with geometries N, IWP* and PJ; 4.16 MPa2/g, 3.51 MPa2/g, and 2.88 MPa2/g. The adequacy of applying the Gibson-Ashby equation for fabricated cellular materials with triply periodic minimal surfaces (TPMS) geometry has been proven. %U https://www.sv-jme.eu/article/impact-of-the-geometry-of-cellular-structure-of-glass-filled-polyamide-material-on-the-energy-absorbing-properties-of-design-elements/ %0 Journal Article %R 10.5545/sv-jme.2024.975 %& 607 %P 13 %J Articles in Press %V 0 %N 0 %@ 0039-2480 %8 2024-06-19 %7 2024-06-19
Diachenko, Semen V., Sergey V. Balabanov, Maxim M. Sychov, German E. Litosov, & Nikita V. Kiryanov. "The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements." Articles in Press [Online], 0.0 (0): 607-619. Web. 22 Nov. 2024
TY - JOUR AU - Diachenko, Semen V. AU - Balabanov, Sergey V. AU - Sychov, Maxim M. AU - Litosov, German E. AU - Kiryanov, Nikita V. PY - 0 TI - The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements JF - Articles in Press DO - 10.5545/sv-jme.2024.975 KW - additive technologies; selective laser sintering; polyamide; glass; triply periodic minimal surface; energy absorption; dampers; N2 - Energy-absorbing properties of cellular materials with D, G, IWP*, N, P, Q, PJ triply minimal energy surface geometries were investigated. Materials were made of glass-filled polyamide by selective laser sintering. Mechanical properties of cellular structures were determined depending on the geometry: the highest specific compressive strength σsp.max >8 MPa∙cm3/g is possessed by samples with the geometry IWP* and PJ; the highest specific energy absorption Asp = 14.5 MJ/m3 is in the sample with the geometry N. A mass-strength criterion for cellular structures is proposed. The maximal values of mass-strength criterion are from samples with geometries N, IWP* and PJ; 4.16 MPa2/g, 3.51 MPa2/g, and 2.88 MPa2/g. The adequacy of applying the Gibson-Ashby equation for fabricated cellular materials with triply periodic minimal surfaces (TPMS) geometry has been proven. UR - https://www.sv-jme.eu/article/impact-of-the-geometry-of-cellular-structure-of-glass-filled-polyamide-material-on-the-energy-absorbing-properties-of-design-elements/
@article{{sv-jme}{sv-jme.2024.975}, author = {Diachenko, S., Balabanov, S., Sychov, M., Litosov, G., Kiryanov, N.}, title = {The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements}, journal = {Articles in Press}, volume = {0}, number = {0}, year = {0}, doi = {10.5545/sv-jme.2024.975}, url = {https://www.sv-jme.eu/article/impact-of-the-geometry-of-cellular-structure-of-glass-filled-polyamide-material-on-the-energy-absorbing-properties-of-design-elements/} }
TY - JOUR AU - Diachenko, Semen V. AU - Balabanov, Sergey V. AU - Sychov, Maxim M. AU - Litosov, German E. AU - Kiryanov, Nikita V. PY - 2024/06/19 TI - The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements JF - Articles in Press; Vol 0, No 0 (0): Articles in Press DO - 10.5545/sv-jme.2024.975 KW - additive technologies, selective laser sintering, polyamide, glass, triply periodic minimal surface, energy absorption, dampers, N2 - Energy-absorbing properties of cellular materials with D, G, IWP*, N, P, Q, PJ triply minimal energy surface geometries were investigated. Materials were made of glass-filled polyamide by selective laser sintering. Mechanical properties of cellular structures were determined depending on the geometry: the highest specific compressive strength σsp.max >8 MPa∙cm3/g is possessed by samples with the geometry IWP* and PJ; the highest specific energy absorption Asp = 14.5 MJ/m3 is in the sample with the geometry N. A mass-strength criterion for cellular structures is proposed. The maximal values of mass-strength criterion are from samples with geometries N, IWP* and PJ; 4.16 MPa2/g, 3.51 MPa2/g, and 2.88 MPa2/g. The adequacy of applying the Gibson-Ashby equation for fabricated cellular materials with triply periodic minimal surfaces (TPMS) geometry has been proven. UR - https://www.sv-jme.eu/article/impact-of-the-geometry-of-cellular-structure-of-glass-filled-polyamide-material-on-the-energy-absorbing-properties-of-design-elements/
Diachenko, Semen V., Balabanov, Sergey V., Sychov, Maxim M., Litosov, German E., AND Kiryanov, Nikita V.. "The Impact of the Geometry of Cellular Structure Made of Glass-Filled Polyamide on the Energy-Absorbing Properties of Design Elements" Articles in Press [Online], Volume 0 Number 0 (19 June 2024)
Articles in Press
© The Authors 2024. CC BY 4.0 Int.
Energy-absorbing properties of cellular materials with D, G, IWP*, N, P, Q, PJ triply minimal energy surface geometries were investigated. Materials were made of glass-filled polyamide by selective laser sintering. Mechanical properties of cellular structures were determined depending on the geometry: the highest specific compressive strength σsp.max >8 MPa∙cm3/g is possessed by samples with the geometry IWP* and PJ; the highest specific energy absorption Asp = 14.5 MJ/m3 is in the sample with the geometry N. A mass-strength criterion for cellular structures is proposed. The maximal values of mass-strength criterion are from samples with geometries N, IWP* and PJ; 4.16 MPa2/g, 3.51 MPa2/g, and 2.88 MPa2/g. The adequacy of applying the Gibson-Ashby equation for fabricated cellular materials with triply periodic minimal surfaces (TPMS) geometry has been proven.