Soyarslan, Celal

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https://hdl.handle.net/20.500.14411/7838
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Soyarslan, C.
Soyarslan, Celal
C., Soyarslan
Celal, Soyarslan
C.,Soyarslan
S., Celal
S.,Celal
Soyarslan,C.
Job Title
Öğretim Görevlisi
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Department of Mechatronics Engineering
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Former Staff
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Scholarly Output

10

Articles

7

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38/181

Supervised MSc Theses

2

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WoS Citation Count

92

Scopus Citation Count

75

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5

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3

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WoS Citations per Publication

9.20

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7.50

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JournalCount
9th International Conference on Technology of Plasticity, ICTP 2008 -- 9th International Conference on Technology of Plasticity, ICTP 2008 -- 7 September 2008 through 11 September 2008 -- Gyeongju -- 1047661
Computer Methods in Biomechanics and Biomedical Engineering1
Finite Elements in Analysis and Design1
Journal of Materials Research1
Makina Tasarım ve Imalat Dergisi1
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Now showing 1 - 2 of 2
  • Thumbnail Image
    Article
    Citation - WoS: 12
    Skeletonization-based beam finite element models for stochastic bicontinuous materials: Application to simulations of nanoporous gold
    (Cambridge Univ Press, 2018) Soyarslan, Celal; Argeso, Hakan; Borgmann, Swantje
    An efficient representative volume element generation strategy is developed in modeling nanoporous materials. It uses periodic 3D beam finite element (FE) models derived from skeletonization of spinodal-like stochastic microstructures produced by a leveled random field. To mimic stiffening with agglomeration of the mass at junctions, an increased Young's modulus is assigned to the elements within the junction zone. The effective Young's modulus, Poisson's ratio, and universal anisotropy index are computed. A good agreement of the Young's modulus predictions with those obtained from experimental results for phase volume fractions 0.20 < phi(B) < 0.50 is observed. Moreover, the elastic anisotropy index of the generated beam networks shows sufficient proximity to isotropy. Finally, it is demonstrated that, as compared to the simulation statistics of voxel-FE models, for the beam-FE models over 500-fold computational acceleration with 250-fold less memory requirement is provided.
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    Conference Object
    Citation - Scopus: 1
    Analysis of Damage in Metal Forming
    (Hanrimwon Publishing Co., 2008) Soyarslan,C.; Erman Tekkaya,A.
    Investigation of central burst formation in direct extrusion is presented with experimental and numerical studies. On the experimental side, selecting certain unfavorable die angles and reduction ratios from the Chrysler processing standard for chevron-free extrusions curve [1], a set of extrusion tests are performed. Accordingly, chevrons are produced in the first and second pass for 100Cr6 and Cf53, respectively. On the numerical side, a multiplicative finite plasticity framework is coupled with a Lemaitre variant Continuum Damage Mechanics (CDM) model giving account for the crack closure effect and implemented as ABAQUS/VUMAT subroutine. Materializing an explicit finite element scheme, the effects of main process parameters, such as friction, semi-cone angle and reduction ratio on damage accumulation zones and intensities are studied. It is shown that, for the identical geometries, with an appropriately selected crack closure parameter and an element deletion procedure, the discrete periodic cracks can be captured, which are in correlation with the conducted experimental outputs.