Browsing by Author "Gülgeç, Müfit"
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Article Citation - WoS: 4Citation - Scopus: 4Influence of the Material Properties on the Elastic-Plastic Deformation in a Heat Generating Composite Solid Cylinder(Gazi Univ, Fac Engineering Architecture, 2013) Ozturk, Ali; Gülgeç, Müfit; Gulgec, Mufit; 30494; 4168; Mekatronik MühendisliğiBased on Tresca's yield criterion and its associated flow rule, the elastic-plastic deformation of a centrally heated composite cylinder with fixed ends is investigated by considering the influence of geometric parameters as well as material properties such as yield strength, modulus of elasticity, Poisson's ratio, coefficient of thermal conduction and thermal expansion. In the study, stress, strain and displacement distributions in the composite cylinder made of elastic-perfectly plastic material are derived. Stress distribution and evolution of plastic regions in the composite are presented for different levels of heat generation in the core.Article Isı Üreten İçi Dolu Kompozit Bir Silindirde Malzeme Özelliklerinin Elastik-Plastik Deformasyona Etkisi(2013) Gülgeç, Müfit; Ozturk, AliTresca akma kriteri ve birleşik akış kuralına dayanarak, iki ucu sabit, ortasından ısıtılan kompozit bir silindirin elastik-plastik deformasyonu, sadece geometrik parametrelerin etkisi değil aynı zamanda akma dayanımı, elastisite modülü, Poisson oranı, ısıl iletkenlik ve ısıl genleşme katsayıları gibi malzeme özelliklerinin de etkisi dikkate alınarak incelenmiştir. Çalışmada, elastik-mükemmel plastik malzemeden yapılmış bu kompozit silindirdeki gerilme, gerinim ve deplasman dağılımları elde edilmiştir. İçteki silindirde artan ısı üretimine göre değişen gerilme dağılımı ve plastik bölgelerin gelişimi grafiklerle gösterilmiştir.Article A Parametric Study on the Elastic-Plastic Deformation of a Centrally Heated Two-Layered Composite Cylinder With Free Ends(Polish Acad Sciences inst Fundamental Technological Research, 2016) Yalcin, F.; Gülgeç, Müfit; Ozturk, A.; Gulgec, M.; 4168; Mekatronik MühendisliğiIn this paper, an elastic-plastic deformation of a centrally heated two-layered composite cylinder with free ends subjected to uniformly distributed internal energy generation within an inner cylinder is studied using Tresca's yield condition and its associated flow rule. Stress, strain and displacement distributions in the composite cylinder made of elastic-perfectly plastic material are derived considering the influence of geometric parameters as well as material properties such as yield strength, modulus of elasticity, Poisson's ratio, coefficient of thermal conduction and coefficient of thermal expansion. Yielding starts at the outer boundary or at the axis corresponding to an 'edge regime' of Tresca's prism in both cases. Propagations of the plastic regions are studied due to an increase of a heat generation.
