
dr inż. Michał Landowski
Zatrudnienie
- Adiunkt w Instytut Technologii Maszyn i Materiałów
Media społecznościowe
Kontakt
- miclando@pg.edu.pl
Adiunkt
- Miejsce pracy
- Budynek Wydziału Mechanicznego pokój 127
- Telefon
- (58) 347 12 91
Wybrane publikacje
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Impact damage in SiO2 nanoparticle enhanced epoxy – Carbon fibre composites
Low velocity impact behaviour of nano-SiO2 enhanced carbon fibre/epoxy composites for naval applications is reported. Epoxy resin matrix was enhanced by 1- 8 wt% SiO2 nanoparticles, based on industrial surface-modified nanosilica. Impact parameters: force, deformation, energy, damage size were recorded. The most pronounced effect was damage size decrease; e.g. ∼28% recorded by infrared thermography and X-ray computed radiography...
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Water absorption and blistering of glass fibre-reinforced polymer marine laminates with nanoparticle-modified coatings
Macro and microstructural damage was studied in typical glass fibre-reinforced polymer laminates with two types of coating systems – (a) isophtalic gel coat: pure or mixed with SiO2 nanoparticles 5 wt% (5%N) or 10 wt% (10%N) and (b) a two-layer coating system: urethane-modified vinyl ester-based gel coat and additional polyester barrier coat layer. Accelerated tests were performed at 50C for 50 days for specimens with nanoparticle-modified...
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Influence of Parameters of Laser Beam Welding on Structure of 2205 Duplex Stainless Steel
Laser welding is used in modern industry, having many advantages comparing to traditional welding technologies. Nowadays, industry sectors such as shipbuilding, automotive and aviation can’t be imagined without laser processing technologies. Possibility of increase of welded joint properties, autogenous welding and high level of process automation makes the technology of laser welding perspective part of the industry. Physical...
Uzyskane stopnie/tytuły naukowe
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2014-09-17
Nadanie stopnia naukowego
dr inż. Inżynieria materiałowa (Dziedzina nauk technicznych)
wyświetlono 672 razy