Analysis of Mechanical Properties of Components Produced by Additive Manufacturing

被引：0

作者：

Sandeep Kumar, K. ^{[1
]}

Venkata Ramana, V. S. N. ^{[1
]}

Shankar, N. V. S. ^{[2
]}

Bhavani, Koona ^{[1
]}

Abhinav, G. ^{[1
]}

机构：

[1] GITAM Deemed be Univ, GITAM Sch Technol, Dept Mech Engn, Visakhapatnam 530045, Andhra Pradesh, India

[2] Centurian Univ, Dept Comp Sci & Engn, Vizianagaram 535003, Andhra Pradesh, India

来源：

JOURNAL OF ADVANCED MANUFACTURING SYSTEMS | 2025年 / 24卷 / 02期

关键词：

Acrylonitrile butadiene styrene; fused deposition modeling; lattice structures; density variations; thermal conductivity; PLA; ABS;

D O I：

10.1142/S0219686725500192

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

This paper analyses the effect of various lattice structures and lattice vectors on the mechanical properties of components made with acrylonitrile butadiene styrene (ABS) material by fused deposition modeling (FDM) technique. ABS is a well-known thermoplastic polymer that is being used in a variety of applications because of its high durability and good adaptability. A total of nine varieties of lattice structures are examined, including regular variations like hexagonal and cubic patterns and more complex ones like Gyroid patterns in this paper. Lattice vectors like 4-6 mm were considered while preparing the components. The densities of the specimens were estimated, and the specimens were tested for their flexural strength and compression strength. The results show that "Gyroid minimal surface" structures are a better choice for flexural and compression strength applications.

引用

页码：423 / 434

页数：12

共 50 条

[1] Mechanical properties of 2219-Al components produced by additive manufacturing with TIG
Bai, J. Y.
Yang, C. L.
Lin, S. B.
Dong, B. L.
Fan, C. L.
INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 2016, 86 (1-4): : 479 - 485
[2] Mechanical Properties of Sheet Metal Components with Local Reinforcement Produced by Additive Manufacturing
Uensal, Ismail
Hama-Saleh, R.
Sviridov, Alexander
Bambach, Markus
Weisheit, A.
Schleifenbaum, J. H.
PROCEEDINGS OF 21ST INTERNATIONAL ESAFORM CONFERENCE ON MATERIAL FORMING (ESAFORM 2018), 2018, 1960
[3] Mechanical properties of 2219-Al components produced by additive manufacturing with TIG
J. Y. Bai
C. L. Yang
S. B. Lin
B. L. Dong
C. L. Fan
The International Journal of Advanced Manufacturing Technology, 2016, 86 : 479 - 485
[4] Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens
Dzugan, Jan
Seifi, Mohsen
Rzepa, Sylwia
Prochazka, Radek
Rund, Martin
Podany, Pavel
Lewandowski, John J.
VIRTUAL AND PHYSICAL PROTOTYPING, 2023, 18 (01)
[5] Consistency analysis of mechanical properties of elements produced by FDM additive manufacturing technology
Banjanin, Bojan
Vladic, Gojko
Pal, Magdolna
Balos, Sebastian
Dramicanin, Miroslav
Rackov, Milan
Knezevic, Ivan
MATERIA-RIO DE JANEIRO, 2018, 23 (04):
[6] Influence of the Orientation of Parts Produced by Additive Manufacturing on Mechanical Properties
Bechny, Vladimir
Matus, Miroslav
Joch, Richard
Drbul, Mario
Czan, Andrej
Sajgalik, Michal
Novy, Frantisek
MANUFACTURING TECHNOLOGY, 2024, 24 (01): : 2 - 8
[7] Tunable mechanical properties of thermoplastic foams produced by additive manufacturing
Alduais, Abdullah
Ozerinc, Sezer
EXPRESS POLYMER LETTERS, 2023, 17 (03): : 317 - 333
[8] Improving the Mechanical Properties of Materials Produced by Wire Arc Additive Manufacturing
Kabaldin Y.G.
Shatagin D.A.
Anosov M.S.
Klochkova N.S.
Davydov A.M.
Russian Engineering Research, 2024, 44 (04) : 528 - 533
[9] PREDICTING MECHANICAL PROPERTIES IN FIBER REINFORCED COMPOSITES PRODUCED BY ADDITIVE MANUFACTURING
Leon B, Juan S.
Gonzalez-Estrada, A.
Pinto, William
Pertuz, Alberto
Guillermo Diaz, Jorge
7TH INTERNATIONAL CONFERENCE INTEGRITY-RELIABILITY-FAILURE (IRF2020), 2020, : 35 - 36
[10] Mechanical performance of PEEK produced by additive manufacturing
Hoskins, T. J.
Dearn, K. D.
Kukureka, S. N.
POLYMER TESTING, 2018, 70 : 511 - 519

← 1 2 3 4 5 →