Advancements in 3D printing materials: A comparative analysis of performance and applications

Subramani, Raja; Mustafa, Mohammed Ahmed; Ghadir, Ghadir Kamil; Al-Tmimi, Hayder Musaad; Alani, Zaid Khalid; Haridas, D.; Rusho, Maher Ali; Rajeswari, N.; Rajan, A. John; Kumar, Avvaru Praveen

doi:10.59429/ace.v7i2.3867

Appl. Chem. Eng.

2024

DOI: 10.59429/ace.v7i2.3867

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Advancements in 3D printing materials: A comparative analysis of performance and applications

Raja Subramani,

Mohammed Ahmed Mustafa,

Ghadir Kamil Ghadir

et al.

Abstract: 3D printing has rapidly evolved and matured in recent years, with a key factor being the improvement in printing materials. This paper compares the performance and applications of various 3D printing materials, including plastics, metals, ceramics, and biomaterials. Plastics remain the most widely used material due to their low cost and ease of printing, while metals are gaining popularity due to their superior mechanical properties. However, recent advancements in ceramic and biomaterials have opened up new p… Show more

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Cited by 5 publications

References 26 publications

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Exploring the synergistic influence of FDM parameters and strain rate on tensile strength and failure mechanism of FDM printed PLA

Balasubramanian,

Saravanan,

Yang

et al. 2024

Prog Addit Manuf

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Exploring the synergistic influence of FDM parameters and strain rate on tensile strength and failure mechanism of FDM printed PLA

Balasubramanian,

Saravanan,

Yang

et al. 2024

Prog Addit Manuf

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Biomaterials for energy storage: Synthesis, properties, and performance

Chowdhury,

Oliullah,

Islam

et al. 2025

Green Technologies and Sustainability

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Effect of exo-fiber ring, volume fraction and moisture on the mechanical properties of the 3D printed onyx-carbon fiber composite: an experimental study

Kiran,

Punna

2024

Eng. Res. Express

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The present study investigates the potential of onyx-carbon fiber composites for automotive applications, like bumpers focusing on mechanical properties and water absorption behaviour. The study involves tensile, compression, and flexural tests, alongside water absorption analysis, to determine the optimal composite configuration. Results indicate that higher carbon fiber volume fractions (10-15%) and multiple concentric layers (exo-fibers) (3-4) significantly enhance the mechanical performance. The configuration of three concentric layers with 15% carbon fiber demonstrates superior tensile strength, compressive strength, and flexural strength, along with minimal long-term water absorption. This configuration offers a balanced combination of high strength, energy absorption, and durability, making it ideal for enhancing vehicle safety and performance. Future research should focus on optimizing manufacturing techniques and exploring smart material integration to further improve the adaptive properties and damage detection capabilities of these composites, paving the way for next-generation automotive technologies.

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Advancements in 3D printing materials: A comparative analysis of performance and applications

Cited by 5 publications

References 26 publications

Exploring the synergistic influence of FDM parameters and strain rate on tensile strength and failure mechanism of FDM printed PLA

Exploring the synergistic influence of FDM parameters and strain rate on tensile strength and failure mechanism of FDM printed PLA

Biomaterials for energy storage: Synthesis, properties, and performance

Effect of exo-fiber ring, volume fraction and moisture on the mechanical properties of the 3D printed onyx-carbon fiber composite: an experimental study

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