Klasik Laminasyon Teorisinin Üç Boyutlu Yazıcı ile Eriyik Yığma Modelleme Yöntemi Kullanılarak Üretilmiş Plastiklere Uygulanması ve Tam Alanlı Yüzey Gerinim Haritalanması-Reference-Cited by-同舟云学术

Klasik Laminasyon Teorisinin Üç Boyutlu Yazıcı ile Eriyik Yığma Modelleme Yöntemi Kullanılarak Üretilmiş Plastiklere Uygulanması ve Tam Alanlı Yüzey Gerinim Haritalanması

Published:2022-04-30 Issue:2 Volume:22 Page:342-352
ISSN:2149-3367
Container-title:Afyon Kocatepe University Journal of Sciences and Engineering
language:tr
Short-container-title:

Author:

YİLMAZ Cagatay¹,ALİ Hafiz Qasim²,YILDIZ Mehmet³

Affiliation:

1. Abdullah Gül Üniversitesi

2. Sabancı Üniversitesi

3. SABANCI ÜNİVERSİTESİ

Abstract

In this study, five differently oriented sets of 3D-printed tensile samples are produced using the Fused Deposition Method (FDM). Among these five sets, three are used to determine the elastic constant to be used in Classical Lamination Theory (CLT), which is generally used to model fiber-reinforced polymers (FRP). Based on the obtained results, CLT is further applied to the remaining two sets of unreinforced 3D-printed polymer samples where the deposition direction varies in each layer. The stress and strain calculated with CLT are then compared with experimental results obtained through tensile testing. The comparison depicts that experimental and CLT results are in good agreement at lower strain levels. In contrast, the stress calculated with CLT deviates from the experimental result at the higher strain levels.Thereafter, a full-field surface strain mapping is applied by using Digital Image Correlation (DIC) Techniques to reveal the damage progression and failure of Fused Deposition Method 3-D Printed Plastics.

Publisher

Afyon Kocatepe Universitesi Fen Ve Muhendislik Bilimleri Dergisi

Subject

General Engineering

Reference29 articles.

1. Alaimo, G., Marconi, S., Costato, L., & Auricchio, F. 2017. Influence of meso-structure and chemical composition on FDM 3D-printed parts. Composites Part B: Engineering, 113, 371–380.

2. Alexander, P., Allen, S., & Dutta, D. 1998. Part orientation and build cost determination in layered manufacturing. Computer-Aided Design, 30(5), 343–356.

3. Bacak, S., Varol, H. V. Ö., & Tatlı, M. 2020. Fdm Yöntemi İle Üretilen Pla Numunelerin Çekme Özelliklerine İşlem Parametrelerinin Etkisinin İncelenmesi. Mühendislik Bilimleri ve Tasarım Dergisi, 9(1), 209–216.

4. Casavola, C., Cazzato, A., Moramarco, V., & Pappalettere, C. 2016. Orthotropic mechanical properties of fused deposition modelling parts described by classical laminate theory. Materials & Design, 90, 453–458.

5. Demircioğlu, P., Sucuoğlu, H. S., Böğrekci, İ., & Gültekin, A. 2018. The effect of three dimensional printed infill pattern on structural strength. El-Cezeri Journal of Science and Engineering, 5(3), 785–796.