Sermet Demir scite author profile

Sermet Demir

5Publications

6Citation Statements Received

51Citation Statements Given

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142

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Doğuş University

Publications

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Evaluation of effect and optimizing of process parameters for fused deposition modeling parts on tensile properties via Taguchi method

Demir

Yüksel²

2022

RPJ

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Purpose The purpose of this paper is to analyze the effect of printing parameters on the mechanical properties of standard dog bone specimens manufactured by fused deposition modeling. Design/methodology/approach Polylactic acid (PLA) specimens were printed and tested according to the ASTM standard. The effect of five important printing parameters, layer height, raster angle, printing speed, nozzle temperature and nozzle diameter, was examined on ultimate tensile strength (UTS), elongation and apparent density. Five levels were attended for each parameter, and a high number of required experiments were reduced by applying the L25 Taguchi design of the experiment. Findings The effect of each parameter on outputs and optimal values for maximum tensile strength were determined. The most influential parameter is the raster angle of 64.96%. Nozzle temperature has a low effect of 1.76%, but nozzle diameter contribution is 9.77%. The experiment results are validated by analysis of variance analysis, and the optimal predicted level for parameters is 90° raster angle, 0.2 mm layer height, 100 mm/s printing speed, 200°C nozzle temperature and 0.8 mm nozzle diameter. The maximum UTS observed is 48.70 MPa for 0.8 mm nozzle diameter, whereas the minimum is 18.49 for 0.2 mm nozzle diameter. Originality/value This paper is a very extensive experimental research report on the effect of the parameters for the tensile property of 3D printed PLA specimens by the Taguchi method. The documented results can be further developed for an optimization model to obtain a desired mechanical property with less variation and uncertainty in a product.

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Optimization of design parameters for Turkish Tirkeş (war) bow

Demir

Eki̇ci̇

2014

Composites Part B: Engineering

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Identification of design requirements for Stance Control Knee-Ankle-Foot orthosis without actuator using the QFD method

Demir

Taçgın²

2022

Sādhanā

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Suitability of Pristine Carbon Nanotube Yarn Tool for Material Removal by Electrical Discharges

Dönmez

Demir²,

Yayla³

2022

J. of Materi Eng and Perform

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Investigation of Mechanical Properties of Sandwich Composites with Notched Grooves on Lateral Surfaces Under Axial Loads

Demir

Kemiklioğlu

2023

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gerektiren birçok alanda tercih edilmektedir. Sandviç kompozitleri oluşturan elyaflar arasındaki çekirdek (kor) malzemenin hafif olmasının yanı sıra darbe sönümleme özelliğinin fazla olması bu tür malzemelerin kullanımını etkin hale getirmektedir. Bu çalışma kapsamında çentik kanallı sandviç kompozit panellere uygulanan eksenel darbenin malzeme özellikleri üzerine etkisi incelenmiştir. Sandviç kompoziti oluşturan yapıda; 3D Core Firması (Herford, Almanya) tarafından temin edilen hekzagonal şeritli bal peteği formundaki polietilen tereftalat (PET) malzeme çekirdek malzeme olarak kullanılmıştır. Çekirdek malzemenin alt ve üst yüzeylerine simetrik olacak şekilde cam elyaflar istiflenerek vakum infüzyon yöntemi ile kompozit plakalar oluşturulmuştur. Bu plakalar test numunesini oluşturacak belirli boyutlarda kesildikten sonra, plakaların elyaflarının olduğu yüzeylerden tek taraflı ve çift taraflı olmak üzere, sırasıyla 0.35 ve 0.7 mm derinlikte çentik kanallar açılmıştır. Çentik kanalların açıldığı numunelere, özel olarak tasarlanmış eksenel yönlü darbe test cihazında 5, 10, 15 ve 20 Joule enerji seviyelerinde darbe testleri uygulanmıştır. Darbe testleri uygulanan tüm numuneler, sonrasında üniversal mekanik test cihazında üç nokta eğme deneyine tabi tutulmuştur. Elde edilen test sonuçları incelendiğinde, en yüksek eğilme gerilmesinin tek taraftan 0.7 mm çentik açılmış numunede olduğu görülmüştür. En yüksek şekil değiştirmenin ise çift taraftan 0.7 mm çentik açılmış numunede meydana geldiği görülmüştür

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Sermet Demir

Evaluation of effect and optimizing of process parameters for fused deposition modeling parts on tensile properties via Taguchi method

Optimization of design parameters for Turkish Tirkeş (war) bow

Identification of design requirements for Stance Control Knee-Ankle-Foot orthosis without actuator using the QFD method

Suitability of Pristine Carbon Nanotube Yarn Tool for Material Removal by Electrical Discharges

Investigation of Mechanical Properties of Sandwich Composites with Notched Grooves on Lateral Surfaces Under Axial Loads

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