Browsing by Author "Kaymakci, A"
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Web of Science Characteristics of Hot-compressed Poplar Wood Boards(2017.01.01) Ucuncu, T; Durmaz, E; Kaymakci, AWeb of Science COATING PERFORMANCES OF CRIMEAN JUNIPER (Juniperus excelsa M. BIEB.) WOOD(2019.01.01) Oncel, M; Vurdu, H; Kaymakci, A; Ozkan, OE; Aydogan, HWeb of Science Effect of Freeze-Thaw Cycling on the Screw Direct Withdrawal Resistance of Beech, Ozigo, and Okoume Plywoods(2023.01.01) Birinci, E; Kaymakci, AWeb of Science Effect of Heat Treatment Parameters on the Physical, Mechanical, and Crystallinity Index Properties of Scots Pine and Beech Wood(2022.01.01) Birinci, E; Karamanoglu, M; Kesik, HI; Kaymakci, AWeb of Science Web of Science Publication Effect of sepiolite clay nanofibers on physical, mechanical, and thermal properties of wood-plastic nanocomposites(2022-10-01) Kaymakci A.; Kaymakci, AThis study was to investigate sepiolite clay nanofibers (SCNs) on some physical, mechanical, and thermal properties of wood-plastic nanocomposites. To meet this objective, pinewood flour with maleic anhydride polypropylene (PP), sepiolite nanofibers (0, 1, 3, 5, and 7 wt%), and PP were compounded in a twin-screw corotating extruder. The mass ratio of the wood flour to PP was 50/50 (wt%/wt%) in all compounds. The test specimens were produced using an injection molding machine from the pellets. Flexural and tensile properties, thickness swelling, water absorption, thermogravimetric analysis, and morphology of the manufactured nanocomposites were evaluated. Based on the findings in this study, flexural and tensile properties of the wood-plastic nanocomposites increased with increasing the content of the sepiolite nanofibers. By increasing the amount of SCNs, thickness swelling and water absorption properties of wood-plastic nanocomposites were improved. Increasing the loading of SCNs increased the amount of residual ash and thermal stability.Web of Science Publication Effect of titanium dioxide on some mechanical, thermal, and surface properties of wood-plastic nanocomposites(2019-02-01) Kaymakci A.; Kaymakci, AThe effects of TiO 2 (titanium dioxide) loading were evaluated relative to mechanical, thermal, and surface properties of the wood-plastic nanocomposites (WPNs). Pine wood flour, mixed with maleic anhydride polypropylene (MAPP), TiO 2 nanoparticles (0 wt%, 1 wt%, 2 wt%, 3 wt%, 4 wt%, and 5 wt%), and polypropylene, was compounded in a twin screw co-rotating extruder. The mass ratio of the wood flour to polypropylene (PP) was 50/50 (w/w) in all compounds. Test specimens were produced using injection molding machine from the pellets. Flexural and tensile properties, thermogravimetric analysis, surface roughness, wettability, and morphology of the manufactured nanocomposites were evaluated. Flexural and tensile properties of the wood-plastic nanocomposites increased with the increasing content of the TiO 2 . The surface roughness of the wood-plastic nanocomposites was reduced by increasing the content of TiO 2 . Increasing the loading of TiO 2 increased the amount of residual ash and thermal stability.Web of Science Effect of Treatment Temperature on the Initial Performance of Layers of Water-based Paints in Heat-treated Pine and Beech Wood(2022.01.01) Karamanoglu, M; Birinci, E; Kesik, HI; Kaymakci, AWeb of Science Effects of Heat Treatment on Some Characteristics of Scots Pine (Pinus sylvestris L.) Wood(2019.01.01) Durmaz, E; Ucuncu, T; Karamanoglu, M; Kaymakci, AWeb of Science Web of Science IMPACT OF PF AND MUF ADHESIVES MODIFIED WITH TIO2 AND SIO2 ON THE ADHESION STRENGTH(2018.01.01) Ozcifci, A; Kara, ME; Kaymakci, AWeb of Science Influence of Repeated Injection Molding Processing on Some Mechanical and Thermal Properties of Wood Plastic Composites(2016.01.01) Kaymakci, A; Ayrilmis, NWeb of Science Investigation of correlation between Brinell hardness and tensile strength of wood plastic composites(2014.01.01) Kaymakci, A; Ayrilmis, NWeb of Science Investigation of mechanical behavior of wood polymer nanocomposites (WPNs) samples using static vickers microhardness tester(2018.01.01) Asikuzun, E; Kaymakci, AWeb of Science Investigation of Produce Wood Plastic Composite Reinforced with Insect-Damaged Fir Wood(2016.01.01) Gulec, T; Kaymakci, AWeb of Science Web of Science Optimizing Lumber Drying Schedules For Oriental Beech and Sessile Oak Using Acoustic Emission(2020.01.01) Unsal, O; Dundar, T; Gorgun, HV; Kaymakci, A; Korkut, S; As, NWeb of Science PHYSICAL, MECHANICAL AND THERMAL PROPERTIES OF WOOD/ZEOLITE/ PLASTIC HYBRID COMPOSITES(2017.01.01) Kaymakci, A; Gulec, T; Hosseinihashemi, SK; Ayrilmis, N