International Journal of Machine Design and Manufacturing

One of the famous Additive Manufacturing methods for a range of application is Fused Deposition
Modelling (FDM). Fused Deposition Modelling (FDM) is a method for building three-dimensional
geometries layer by layer. The FDM technology, also known as fused deposition modelling, is reasonably
priced, safe for the environment, and appropriate for complicated geometries. Minimize waste of material;
enhance component density and decrease prices are all aims. This article provides a detailed examination
of the variables that directly impact mechanical qualities of components made using the Fused Deposition
Modelling (FDM) technology, such as tensile strength, compressive strength, and bending strength. A
review like this one can help researchers in a related subject choose the optimum optimization method
since component density affects a material's mechanical strength. According to research conducted by a
number of academics, it is crucial to study the mechanical characteristics of materials with various
densities.

Rishi Kumar & Himanshu Sharma, A Comparative Study on the Life Cycle Assessment of a 3D

Printed Product with PLA, ABS & PETG Materials, Procedia CIRP 107 (2022) 15–20

S.M. Fijul Kabir & Kavita Mathur, A critical review on 3D printed continuous fiber-reinforced

composites: history, mechanism, materials and properties, (2019) Published by Elsevier, S0263-

(19)32270-6

Pavan Kumar Penumakala & Jose Santo, A critical review on the fused deposition modeling of

thermoplastic polymer composites, 1359-8368/© (2020) Elsevier Ltd

Li Yuan & Songlin Ding, Additive Manufacturing technology for porous metal implant

applications and triple minimal surface structures: A review, Bioactive Materials 4 (2019) 56–70

Carla M. Ferreira & Carlos M.S.Vicente, Characterization of 3D printed ABS specimens under

static and cyclic torsional loadings, Procedia Structural Integrity 34 (2021) 205–210

F. Saenz & C. Otarola, Influence of 3D printing settings on mechanical properties of ABS at room

temperature and 77 K, Published by Elsevier, Additive Manufacturing 39 (2021) 101841

Sunpreet Singh & Seeram Ramakrishna, Material issues in Additive Manufacturing: A review,

published by Elsevier Ltd, Journal of Manufacturing Processes 25 (2017) 185–200

Rahul Roy & Abhijit Mukhopadhyay, Tribological studies of 3D printed ABS and PLA plastic

parts, 2214-7853 (2020) Elsevier Ltd

Daniel Foltut & Estera Valean, The influence of temperature on mechanical properties of 3D

printed and injection molded ABS, 2214-7853/Copyright (2023) Elsevier Ltd

Chamil Abeykoon & Pimpisut Sri-Amphorn, Optimization of fused deposition modeling

parameters for improved PLA and ABS 3D printed structures, Production and hosting by

Elsevier, International Journal of Lightweight Materials and Manufacture 3 (2020) 284e297.

Lei Zhang & Guojing Yang, Three-dimensional (3D) Printed Scaffold and Material Selection for

Bone Repair, Acta Biomaterialia(2018) S1742-7061(18)30702-5

Ans Al Rashid & Shoukat Alim Khan, Additive Manufacturing: Technology, applications,

markets, and opportunities for the built environment, Published by Elsevier, Automation in

Construction 118 (2020) 103268

Nurul Husna Mohd Yusoff & Chien Hwa Chong, Optimization strategies and emerging

application of functionalized 3D-printed materials in water treatment: A review, Published by

Elsevier, Journal of Water Process Engineering 51 (2023) 103410

Leipeng Yang & Shujuan Li, Experimental Investigations for Optimizing the Extrusion

Parameters on FDM PLA Printed Parts, Journal of Materials Engineering and Performance,

(2018) 1059-9495

Alexander Paolini & Stefan Kollmannsberger, Additive Manufacturing in construction: A review

on processes, applications, and digital planning methods, Published by Elsevier, (2019) 100894

Yubo Tao & Fangong Kong, A review on voids of 3D printed parts by fused filament fabrication,

journal of materials research and technology (2021);15:4860e4879

M. Manoj Prabhakar & A.K. Saravanan, A short review on 3D printing methods, process

parameters and materials, 2214-7853, (2020) Elsevier Ltd

Junior Nomani & Daniel Wilson, Effect of layer thickness and cross-section geometry on the

tensile and compression properties of 3D printed ABS, (2019) Published by Elsevier, S2352-

(19)30078-9

John Ryan C. Dizon & Alejandro H. Espera Jr, Mechanical characterization of 3D-printed

polymers, published by Elsevier, Additive Manufacturing 20 (2018) 44–67

Manav Doshi & Ameya Mahale, Printing parameters and materials affecting mechanical

properties of FDM-3D printed Parts: Perspective and prospects, published by Elsevier, Materials

Mechanical Properties niraj makwana

Mechanical properties (2018) 1-10 © STM Journals2013. All RightsPage 7

Today: Proceedings 50 (2022) 2269–2275

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