@article{LacknerLutzHribernig, author = {Lackner, Maximilian and Lutz, Markus and Hribernig, Thomas}, title = {Neuartiges Verfahren zum L{\"o}schen von Metallbr{\"a}nden mit Zelluloseflakes}, series = {Feuerwehr Fachjournal}, journal = {Feuerwehr Fachjournal}, number = {September 2021}, pages = {54}, subject = {Extinguisher}, language = {de} } @article{EngelhardtNowitzkiAburaiaOtrebskietal., author = {Engelhardt-Nowitzki, Corinna and Aburaia, Mohamed and Otrebski, Richard and Rauer, Johannes and Orsolits, Horst}, title = {Research-based teaching in Digital Manufacturing and Robotics - the Digital Factory at the UAS Technikum Wien as a Case Example}, series = {Procedia Manufacturing}, journal = {Procedia Manufacturing}, number = {Volume 45}, pages = {164 -- 170}, subject = {Digital Factory}, language = {en} } @article{AburaiaBucherLackneretal., author = {Aburaia, Mohamed and Bucher, Christoph and Lackner, Maximilian and Gonzalez-Gutierrez, Joamin and Zhang, Haiguang and Lammer, Herfried}, title = {A Production Method for Standardized Continuous Fiber Reinforced FFF Filament}, series = {Biomaterials and Medical Applications}, journal = {Biomaterials and Medical Applications}, subject = {Filament}, language = {en} } @article{RauerAburaiaWoeber, author = {Rauer, Johannes and Aburaia, Mohamed and W{\"o}ber, Wilfried}, title = {Semi-Automatic Generation of Training Data for Neural Networks for 6D Pose Estimation and Robotic Graspin}, series = {Proceedings of Joint Austrian Computer Vision and Robotics Workshop 2020}, journal = {Proceedings of Joint Austrian Computer Vision and Robotics Workshop 2020}, pages = {2 -- 3}, subject = {Robotics}, language = {en} } @article{EngelhardtNowitzkiAburaiaOtrebskietal., author = {Engelhardt-Nowitzki, Corinna and Aburaia, Mohamed and Otrebski, Richard and Rauer, Johannes and Orsolits, Horst}, title = {Research-based teaching in Digital Manufacturing and Robotics - the Digital Factory at the UAS Technikum Wien as a Case Example}, series = {Procedia Manuf}, journal = {Procedia Manuf}, subject = {Teaching}, language = {en} } @article{AburaiaLacknerBucheretal., author = {Aburaia, Mohamed and Lackner, Maximilian and Bucher, Michael and Gonzalez-Gutierrez, Joamin and Zhang, Haiguang and Lammer, Herfried}, title = {A Production Method for Standardized Continuous Fiber Reinforced FFF Filament}, series = {A Production Method for Standardized Continuous Fiber Reinforced FFF Filament," vol. 4, no. 1, p. 12, 2020}, journal = {A Production Method for Standardized Continuous Fiber Reinforced FFF Filament," vol. 4, no. 1, p. 12, 2020}, subject = {Production}, language = {en} } @article{Lackner, author = {Lackner, Maximilian}, title = {Industrial Engineering Management - THE key skill for the Digital Age}, series = {The International Journal of Engineering and Science (THE IJES)}, journal = {The International Journal of Engineering and Science (THE IJES)}, subject = {Management}, language = {en} } @article{MarklGruenbichlerLackner, author = {Markl, Erich and Gr{\"u}nbichler, Hannes and Lackner, Maximilian}, title = {Cyanobacteria for PHB Bioplastics Production: A Review}, series = {IntechOpen}, journal = {IntechOpen}, pages = {10}, abstract = {Cyanobacteria, or blue-green algae, can be used as host to produce polyhydroxyalkanoates (PHA), which are promising bioplastic raw materials. The most important material thereof is polyhydroxybutyrate (PHB), which can replace the commodity polymer polypropylene (PP) in many applications, yielding a bio-based, biodegradable alternative solution. The advantage from using cyanobacteria to make PHB over the standard fermentation processes, with sugar or other organic (waste) materials as feedstock, is that the sustainability is better (compare first-generation biofuels with the feed vs. fuel debate), with CO2 being the only carbon source and sunlight being the sole energy source. In this review article, the state of the art of cyanobacterial PHB production and its outlook is discussed. Thirty-seven percent of dry cell weight of PHB could be obtained in 2018, which is getting close to up to 78\% of PHB dry cell weight in heterotrophic microorganisms in fermentation reactors. A good potential for cyanobacterial PHB is seen throughout the literature.}, subject = {Bio-based Plastics}, language = {en} } @article{KnappLacknerMarkl, author = {Knapp, Alexander and Lackner, Maximilian and Markl, Erich}, title = {Abrasive pads for sustainable and cost-effective industrial and institutional floor cleaning}, series = {International Journal of Advance Engineering and Research Development}, journal = {International Journal of Advance Engineering and Research Development}, issn = {2348-4470}, pages = {84 -- 86}, abstract = {Industrial and institutional floor cleaning today relies on mechanical action combined with chemicals, which is costly and a burden to the environment. There are floor cleaning pads on the market which claim increased service time due to diamond particles contained in the nonwoven materials. In this study, it was investigated whether cleaning results can also be obtained with hard-particle-coated pads using only water. SiC, diamond and Al 2 O 3 were used with particle sizes between 5 and 125 µm. 5 g/m² of hard particles were applied to the pads in epoxy resin. Weight loss from abrasive cleaning in 500 cycles and gloss increase were measured. Diamond and silicon carbide particles were found to work with pure water, without the need for chemical cleaning agents.}, subject = {Floor cleaning}, language = {en} } @article{MarklGruenbichlerLackner, author = {Markl, Erich and Gr{\"u}nbichler, Hannes and Lackner, Maximilian}, title = {PHB - Bio Based and Biodegradable Replacement for PP: A Review}, series = {Novel Techniques in Nutrition and Food Science}, volume = {2}, journal = {Novel Techniques in Nutrition and Food Science}, number = {2}, pages = {4}, subject = {Bio Degradable}, language = {en} }