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Yumuşak Doku Bünye Denklemleri I: Sanki-Doğrusal Viskoelastik Model (2008)
Date
2009-09-01
Author
Üsü, Kerem
Tönük, Ergin
Metadata
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URI
https://hdl.handle.net/11511/70554
Conference Name
Biyomedikal Mühendisliği Ulusal Toplantısı BİYOMUT 2008
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Department of Mechanical Engineering, Conference / Seminar
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Yumuşak Doku Bünye Denklemleri II: Geliştirilmiş Sanki-Doğrusal Viskoelastik Model
Üsü, Kerem; Tönük, Ergin (null; 2009-09-01)
Yumuşak ve sert doku malzeme deney sistemine elektronik veri toplama biriminin eklenmesi
Elhan, Alaittin; Tekdemir, İbrahim; Açar, İbrahim Halil; Apaydın, Nihal; Esmer, Fırat Ali; Kendir, Simel; Cömert, Aydın; Bilecenoğlu, Burak; Şen, Tülin; Bozkurt, Murat; Tümer, Sami Turgut; Tönük, Ergin; İpek, Gürol; Uçak, İbrahim(2006)
Yumuşak Doku Mekanik Modelleri
Petekkaya, Ali Tolga; Üsü, Kerem; Tönük, Ergin (Akademisyen Kitabevi, 2009-01-01)
Bu kitabın temel amacı, akademik ya da mesleki düzeyde uygulama, araştırma-geliştirme çalışmaları yapan ilgilileri, insanın kas-iskelet sistemi ve onun sağlığının biyomekaniği konusunda bilgilendirmektir. Kas-iskelet sistemine uygulanması şeklinde anlaşılması göz önüne alındığında, temel bilimlerden mühendislik bilimlerine, eğitim bilimlerinden sağlık bilimlerine uzanan geniş bir alanda büyük bir hedef kitlesine sahiptir. Bu kapsamda kitabın, örneğin ortopedi ve travmatoloji, fizik tedavi ve rehabilitasyon,...
Formulation and implementation of a fractional order viscoelastic material model into finite element software and material model parameter identification using in-vivo indenter experiments for soft biological tissues
Demirci, Nagehan; Tönük, Ergin; Department of Mechanical Engineering (2012)
Soft biological tissue material models in the literature are frequently limited to integer order constitutive relations where the order of differentiation of stress and/or strain is integer-valued. However, it has been demonstrated that fractional calculus theory applied in soft tissue material model formulation yields more accurate and reliable soft tissue material models. In this study, firstly a fractional order (where the order of differentation of stress in the constitutive relation is non-integer-valu...
Identification of soft tissue mechanical material model and corresponding parameters from in vivo experimental data by using inverse finite element method
Üsü, Kerem; Tönük, Ergin; Department of Mechanical Engineering (2008)
The purpose of this thesis is to search for the best material model for soft biological tissues in general. Different sections of human body exhibit different responses like stress relaxation, creep, hysteresis and preconditioning to external loading conditions. These body sections can be assumed as viscoelastic, poroelastic or pseudoelastic. After making the choice of the material model from one of these for the current study, the finite element model and the material code to be used with this model have b...
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K. Üsü and E. Tönük, “Yumuşak Doku Bünye Denklemleri I: Sanki-Doğrusal Viskoelastik Model (2008),” presented at the Biyomedikal Mühendisliği Ulusal Toplantısı BİYOMUT 2008, Ankara, Türkiye, 2009, Accessed: 00, 2021. [Online]. Available: https://hdl.handle.net/11511/70554.
