Mehmet İskender Özsoy scite author profile

In this study, microneedles (MNs) were successfully fabricated using the 3D printing method, which provides ease of production and reproduction in the desired size. Chi/Dox MNs drug delivery systems containing doxorubicin (Dox) were successfully produced in the presence of glutaraldehyde, which was coated with chitosan (Chi) and used as a crosslinker to prolong the drug release of the produced MNs. The obtained Chi/Dox MNs drug distribution systems were characterized by SEM, FTIR, zeta, contact angle, surface energy, compression test, and drug release tests. With the SEM analyzes performed before and after coating, it was observed that the MNs were in micro dimensions, and the diameters of the MNs tips before and after coating were 41.22 μm and 54.58 μm, respectively. After the compression test, it was analyzed that each MNs could withstand a force of about 76 N. The zeta potentials of Chi and Dox solutions were measured as 8.8 and 21.5 mV, respectively. FTIR, zeta potential, contact angle, and surface energy results confirm the Dox coating and their interactions. It has been observed that Chi/Dox MNs has successfully extended drug release time without drug-burst, and their use in skin cancer treatment is promising.

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Investigation of the mechanical properties of carbon and basalt fiber laminated hybrid epoxy composites

Özsoy¹

2022

Pamukkale J Eng Sci

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Although carbon fiber reinforced epoxy composites are used in a wide area on structural components, there is a need to increase the toughness of these materials due to their brittle structure. For this purpose, hybrid composites were produced with basalt fibers, which show more ductile behavior than carbon fibers and the mechanical features of the composites were investigated. Layered composites were produced by vacuum infusion method. The effects of hybridization type on mechanical features were studied by producing composites as pure carbon, pure basalt, intercalated and sandwich type hybrids. The mechanical behaviors of the specimens were evaluated by tensile, flexural and Charpy impact tests. At the end of the tests, the mechanical values of the hybrid laminate composites were found between carbon and basalt composites. Adding basalt fiber to carbon fiber, the tensile strength, flexural strength and modulus of elasticity of the composites decreased. However, the impact performance of carbon fiber composites improved with adding basalt fiber.Karbon fiber katkılı epoksi kompozitlerin yapısal komponentlerde geniş bir alanda kullanılmalarına karşılık gevrek bir yapıya sahip olmaları nedeniyle bu malzemelerin tokluklarını arttırmaya gereksinim duyulmaktadır. Bu amaçla karbon fiberlere göre daha sünek davranış gösteren bazalt fiberler ile hibrit kompozitler üretilerek kompozitlerin mekanik özellikleri incelenmiştir. Tabakalı kompozitler vakum infüzyon yöntemi ile üretilmiştir. Kompozitler saf karbon, saf bazalt, ardışık ve sandviç tip hibrit olarak üretilerek hibritleşme türünün mekanik özellikler üzerindeki etkileri çalışılmıştır. Kompozitlerin mekanik özellikleri çekme, eğilme ve Charpy darbe testleri ile karakterize edilmiştir. Testler sonunda hibrit kompozitlerin mekanik değerleri karbon ve bazalt fiberler arasında çıkmıştır. Karbon fibere bazalt fiber ilavesi ile kompozitlerin çekme dayanımı, eğilme dayanımı ve elastisite modülü azalmıştır. Bununla birlikte bazalt elyafın eklenmesi ile karbon fiber kompozitlerin darbe performansları iyileşmiştir.

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Traktörlerde Kullanılan Teknolift Mandalının Ergonomik Olarak Geliştirilmesi

Ulu¹,

Özsoy²

2020

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Öz Bu çalışmada traktörlerde kullanılan mevcut teknolift mandal mekanizmalarına ergonomiklik kazandırılması ve mekanizmaya uygulanan yükün azaltılması amacıyla ve ergonomik açıdan tutma biçimleri göz önüne alınarak yeni bir teknolift mandal mekanizması tasarlanmıştır. Yapılan bu tasarım hızlı prototipleme yöntemi ile üretilerek traktör üzerindeki ergonomikliği kontrol edilmiştir. Diğer taraftan araç üzerine monte edilen yeni mekanizmanın üzerine gelen yükler dijital kuvvet ölçer ile ölçülerek teorik hesaplama sonucuyla karşılaştırılmıştır. Ölçümler neticesinde deneysel ve teorik sonuçların birbirine yakın olduğu görülmüştür. Diğer taraftan elde edilen yük değerleri bu yeni tasarımın yaklaşık %58-72 oranında daha az bir yükleme ile çalışacağını göstermektedir. Bu durum traktör başındaki kullanıcının daha az kuvvet harcayacağını göstermektedir. Bununla birlikte geliştirilen alternatif kol tasarımının kol/omuz desteğiyle ittirileceği için uzun süreli kullanımlarda herhangi bir fiziksel sorun teşkil etmeyeceği ve iş verimliliğine olumlu yönde katkı yapacağını düşünülmektedir.

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Impactor Diameter and Ply Number Effects on the Impact Behavior of Carbon Fiber Composite Laminates

Özsoy

2022

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As it is known, impact damage is a major mechanical phenomena for composite materials especially used in the aerospace structures. The factors affecting the impact behaviour of the composites depend on the impactor systems as well as the target material. In this study ply number and impactor geometry effects of carbon fiber reinforced epoxy composites were investigated by impact tests. In this context, drop weight impact tests were carried out at 6J, 12J and 24J energy levels by using hemispherical impactors with 10 mm and 20 mm diameters. Laminated composites were manufactured in 6, 10 and 14 plies with vacuum infusion method. The effects of laminate thickness, impactor diameter and impact energy effects on the force, velocity, absorbed energy and damage surfaces were investigated. It is observed that impactor geometries and velocities caused the different damage mechanisms in composites and impactors played an important role in determining the penetration and perforation behaviours of composites.

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Carbon–carbon nanocomposites for brake systems and exhaust nozzles

Özsoy

Türk

Fındık

et al. 2022

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