STAFF PROFILE
Dr Andrey Molotnikov
Position:
Associate Professor
College / Portfolio:
STEM College
School / Department:
STEM|School of Engineering
Phone:
+61399259654
Campus:
City Campus
Contact me about:
Research supervision
- Vellayappan, M.,Duarte, F.,Sollogoub, C.,Dirrenberger, J.,Guinault, A.,Frith, J.,Parkington, H.,Molotnikov, A.,Cameron, N. (2023). In press - Fabrication of Architectured Biomaterials by Multilayer Co-Extrusion and Additive Manufacturing In: Advanced Functional Materials, , 1 - 16
- Lauhoff, C.,Arold, T.,Bolender, A.,Rackel, M.,Pyczak, F.,Weinmann, M.,Xu, W.,Molotnikov, A.,Niendorf, T. (2023). Microstructure of an additively manufactured Ti-Ta-Al alloy using novel pre-alloyed powder feedstock material In: Additive Manufacturing Letters, 6, 1 - 7
- Herzog, T.,Brandt, M.,Trinchi, A.,Sola, A.,Molotnikov, A. (2023). Process monitoring and machine learning for defect detection in laser-based metal additive manufacturing In: Journal of Intelligent Manufacturing, , 1 - 31
- Hunter, G.,Djumas, L.,Molotnikov, A.,Brassart, L. (2023). Modelling the effect of layer strength distribution on the brick-and-mortar failure regimes and properties In: Mechanics of Materials, 187, 1 - 13
- Brodie, E.,Richter, J.,Wegener, T.,Molotnikov, A.,Niendorf, T. (2022). Influence of a remelt scan strategy on the microstructure and fatigue behaviour of additively manufactured biomedical Ti65Ta efficiently assessed using small scale specimens In: International Journal of Fatigue, 162, 1 - 10
- Yao, Y.,Molotnikov, A.,Parkington, H.,Meagher, L.,Forsythe, J. (2022). Extrusion 3D bioprinting of functional self-supporting neural constructs using a photoclickable gelatin bioink In: Biofabrication, 14, 1 - 21
- Hunter, G.,Djumas, L.,Brassart, L.,Molotnikov, A. (2022). Effect of angled layers on failure regimes in brick-and-mortar structures In: Materials and Design, 218, 1 - 11
- Hagenlocher, C.,O'Toole, P.,Xu, W.,Brandt, M.,Easton, M.,Molotnikov, A. (2022). The Effect of Heat Accumulation on the Local Grain Structure in Laser-Directed Energy Deposition of Aluminium In: Metals, 12, 1 - 20
- Hagenlocher, C.,O'Toole, P.,Xu, W.,Brandt, M.,Easton, M.,Molotnikov, A. (2022). Analytical modelling of heat accumulation in laser based additive manufacturing processes of metals In: Additive Manufacturing, 60, 1 - 14
- Hagenlocher, C.,O'Toole, P.,Xu, W.,Brandt, M.,Easton, M.,Molotnikov, A. (2022). In process monitoring of the thermal profile during solidification in laser directed energy deposition of aluminium In: Additive Manufacturing Letters, 3, 1 - 8
1 PhD Completions and 2 Masters by Research Completions12 PhD Current Supervisions and 1 Masters by Research Current Supervisions
Hybrid materials, Constitutive modelling of the mechanical response of materials, Finite element modelling (FEM), Non-linear material behaviour, Strain gradient dependent plasticity, Plastic instabilities and strain localisation
- Free Float or support free: a new generation metal 3D printing facility. Funded by: ARC Linkage Infrastructure Equipment and Facilities (LIEF) Grant from (2023 to 2024)
- AUFRANDE - Australia-France Network of Doctoral Excellence (Umbrella Agreement). Funded by: Horizon Europe Marie Sklodowska Curie - COFUND from (2023 to 2028)
- Additive manufacturing of Rocket Booster for Space Launch - CRC-P XI000204 (Administered by DefendTex Pty Ltd). Funded by: CRC-P Cooperative Research Centre Project (DefendTex) from (2022 to 2024)
- Transportable high-power blue laser for processing of reflective materials (externally led by Swinburne University of Technology). Funded by: ARC Linkage Infrastructure Equipment and Facilities (LIEF) Grant from (2022 to 2023)