01224nam0-2200277---450 991064519300332120230216161338.020230216d1835----km-y0itay50------balatITaf------001yyAntonii Bertolonii ... Commentarius de mandragorisBononiaeex Typographaeo Emygdii ab ulmo et Iosephi Tiocchi183513 p, 3 c. di tav.ill.28 cmCommentario letto dall'autore nel convento dell'Accademia delle Scienze dell'Istituto bolognese nel'anno 1833Dedica dell'autore ms a inchiostro: "All'amico Caval.r Tenore. L'autore" sulla c. di guardia anterioreIT-NA0338: B III 14 (7Commentarius de mandragorisBertoloni,Antonio<1775-1869>70070ITUNINAREICATUNIMARCVisualizza la versione elettronica in Suchmaschine des Österreichischen Bibliothekenverbundeshttps://fedora.phaidra.univie.ac.at/fedora/objects/o:302210/methods/bdef:Book/view20230216BK9910645193003321B III 14 (7DBVDBVAntonii Bertolonii ... Commentarius de mandragoris3006956UNINA00901nam a2200265 4500991000815659707536050208t 1998it ita d8845913600b13277248-39ule_instDip.to LingueitaMcGrath, Patrick469662Follia /traduzione di Matteo CodignolaTrentatreesima edizione: settembre 2004 (prima edizione: febbraio 1998)Milano :Adelphi,c1998294 p. ;22 cmFabula ;107ItalianoCodignola, MatteoAsylum.b1327724821-09-0608-02-05991000815659707536LE012 828.914 MCA 0312012000097599le012-E0.00-l- 05050.i1400106808-02-05Follia1086165UNISALENTOle01208-02-05ma -itait 0003737nam 2200709z- 450 991055762790332120220111(CKB)5400000000045135(oapen)https://directory.doabooks.org/handle/20.500.12854/76584(oapen)doab76584(EXLCZ)99540000000004513520202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierSurface Modification of Metals and AlloysBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 online resource (90 p.)3-0365-1010-9 3-0365-1011-7 Recently, the scientific community has deemed surface modification to be necessary because the surface properties of new materials are usually inadequate in terms of wettability, adhesion, corrosion resistance, or even drag reduction. In order to modify solid surfaces such as metals and alloys, different treatments have been used to obtain a desired surface finish, including chemical vapor deposition, physical vapor deposition, chemical etching, electrodeposition, or the application of non-equilibrium gaseous media, especially gaseous plasma. These treatments promote changes in roughness, hydrophobicity, biocompatibility, or reactivity. Although such treatments have been studied extensively over the past decades and even commercialized, the exact mechanisms of the interaction between reactive gaseous species and solid materials are still inadequately understood. Moreover, for various reasons, it is difficult to find an alloy with a surface behavior that differs from that of the bulk. A frequent goal of surface modification is to obtain a greater or more specific resistance to extreme environments, including resistance to corrosion and wear; higher mechanical or fatigue resistance; hydrophobicity; oleophilicity; or thermal (for low or high temperature exposure), magnetic, electrical, or specific optic or light exposure behavior. Another objective is to increase biocompatibility, prevent (bio)fouling, or both. In order to achieve and improve these properties in metals and alloys, the strategy of surface modification must be applied on the basis of direct action on the metal or the incorporation of a coating that will provide these properties or functionalize its surface to meet complex requirements.Research & information: generalbicsscadditive manufacturingcermet materialscoatingscorrosionCu2+-assisted etchingdrag reductiondurablefatty acidfluoropolyurethaneHVAFHVOFincidence angleINCONEL718L-PBFn/anon-fluorinatedPEOplasma electrolytic oxidationrobustroughnesssteelsuperhydrophobicsuperhydrophobic/hydrophilicthermal spraywater-harvestingWC-based coatingswear resistancezinc substratezinc-aluminizedResearch & information: generalLlorca-Isern Nuriaedt1297611Rius-Ayra OrioledtLlorca-Isern NuriaothRius-Ayra OriolothBOOK9910557627903321Surface Modification of Metals and Alloys3024613UNINA