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Geometry Characterization of AISI 430 Stainless Steel Microstructuring Using Laser

Moldovan Edit R., Concheso Doria Carlos, Ocaña Moreno Jose Luis, Baltes Liana Sanda, Stanciu Elena Manuela, Croitoru Catalin, Pascu Alexandru, Tierean Mircea Horia

Archives of Metallurgy and Materials

2022

Vol. 67, iss. 2

645--652

Laser-generated surface patterns provide the means for local mechanical interlocking between the joined materials, tunes the wettability of surfaces that come in contact, and generally are the main factor for bonding strength enhancement, especially between dissimilar materials. This paper presents the influence of different patterning overlays generated with a pulsed laser on the surface of stainless-steel sheets. For all experiments, an overlapping degree of 90% has been chosen between three different patterns, while the engraving speed, pulse frequency and number of passes have varied. The textured surfaces’ morphology was assessed through optical microscopy, and the roughness of the surfaces was correlated with the corresponding experimental parameters. The results have indicated promising insights for joining stainless steel to plastic materials, which is otherwise difficult to assess through usual welding techniques.

Micro- and nanopatterned surfaces for guided adhesion, growth and phenotypic maturation of cells

Bacakova L., Filova E., Grausova L., Vandrovcova M., Parizek M., Novotna K., Svorcik V., Vacik J., Rypacek F., Kromka A., Heitz J., Shard A.

Engineering of Biomaterials

2009

Vol. 12, no. 89-91

18--21

Micropatterned surfaces were created by UV light-irradiation of polytetrafluoroethylene through a metallic mask, by successive plasma polymerization of acrylic acid and 1,7-octadiene, or by creation of prominences and grooves by deposition of fullerenes C60 through a metallic mask. All these surface types were capable of inducing regionally-selective adhesion, proliferation and phenotypic maturation of vascular endothelial cells, vascular smooth muscle cells or human bone-derived MG 63 cells. Nanopatterned surfaces created by tethering GRGDSG oligopeptides through polyethylene oxide chains on a polymeric surface promoted spreading, formation of focal adhesion plaques and DNA synthesis in vascular smooth muscle cells. Surfaces nanopatterned with nanocrystalline diamond gave good support for the adhesion, growth and metabolic activity of osteoblast-like MG 63 cells.