Strength of PLA components fabricated with fused deposition technology using a desktop 3D printer as a function of geometrical parameters of the process VE Kuznetsov, AN Solonin, OD Urzhumtsev, R Schilling, AG Tavitov Polymers 10 (3), 313, 2018 | 296 | 2018 |
Increasing strength of FFF three-dimensional printed parts by influencing on temperature-related parameters of the process VE Kuznetsov, AN Solonin, A Tavitov, O Urzhumtsev, A Vakulik Rapid Prototyping Journal 26 (1), 107-121, 2020 | 134 | 2020 |
Hardware factors influencing strength of parts obtained by fused filament fabrication VE Kuznetsov, AG Tavitov, OD Urzhumtsev, MV Mikhalin, AI Moiseev Polymers 11 (11), 1870, 2019 | 31 | 2019 |
Design and fabrication of strong parts from poly (lactic acid) with a desktop 3D printer: A case with interrupted shell VE Kuznetsov, AG Tavitov, OD Urzhumtsev, MV Mikhalin, AN Solonin Polymers 11 (5), 760, 2019 | 18 | 2019 |
Desktop fabrication of strong poly (lactic acid) parts: FFF process parameters tuning VE Kuznetsov, AG Tavitov, OD Urzhumtsev, AA Korotkov, SV Solodov, ... Materials 12 (13), 2071, 2019 | 9 | 2019 |
Strength of PLA components fabricated with fused deposition technology using a desktop 3D printer as a function of geometrical parameters of the process, Polymers (Basel). 10 … VE Kuznetsov, AN Solonin, OD Urzhumtsev, R Schilling, AG Tavitov Citado na, 31, 0 | 8 | |
Increasing of Strength of FDM (FFF) 3D Printed Parts by Influencing on Temperature-Related Parameters of the Process,(2018) 1–32 VE Kuznetsov, AN Solonin, AG Tavitov, OD Urzhumtsev, AH Vakulik | 5 | |