Effect of wood flour and <scp>nano‐SiO<sub>2</sub></scp> on stimulus response, mechanical, and thermal behavior of <scp>3D</scp> printed <scp>polylactic acid</scp> composites

Kumar, Shiv Ranjan

doi:10.1002/pat.5851

Cited by 8 publications

(2 citation statements)

References 34 publications

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“…Also, addition of natural available materials such as plant fiber and wood flour can be cost effective as well as biodegradable and it would add physical and mechanical properties to PLA based composite. [6][7][8] Some of the major natural fiber used in as reinforcement are coir, jute, kenaf, sisal etc. [9][10][11] Various fabrication techniques used for mixing both polymer resin and fiber reinforcement are hand layup, compression moulding, extrusion, injection moulding, pultrusion etc.…”

Section: Introductionmentioning

confidence: 99%

Physicomechanical and erosion wear characterization of PLA/Jute fiber biocomposite

Sharma,

Kumar

2023

Journal of Elastomers & Plastics

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Introduction: The present study has demonstrated the effect of short jute fiber on physical, mechanical and erosion wear performance of PLA based composite. Problem Statement: An attempt has been made to develop and investigate the environment friendly and biodegradable composites based on jute fiber and PLA composite. Materials and Method: The erosion wear performance was assessed on Air-jet erosion tester. The design of experiments was prepared as per Taguchi orthogonal array L16 under for different factors of impact velocity, impingement angle, erodent size and jute fiber fraction and level of each factor was kept four. ANOVA was applied to find the best significant factor affecting erosion rate of composite. Main Results: The finding of results indicated that the density significantly increased with the addition of jute fiber and in parallel, it indicated the increment in the void content. The mechanical properties like hardness, tensile strength, flexural strength, impact strength and fracture toughness of PLA based composite reinforced with 15 wt.-% jute fiber were increased by 59%, 233%, 42%, 62% and 168% respectively. On the other hand, the thermal conductivity of the composite was decreased by 31% with the addition of 15 wt.-% of jute fiber. The minimum erosion wear rate was obtained for 15 wt.-% of jute fiber under impact velocity of 35 m/sec and angle of impingement of 90° and erodent size of 250 µm. Finally, ANOVA concluded that the impact velocity and jute fiber fraction played the most important role in influencing the erosion wear rate of PLA composite. Recommendation: For many construction and structural applications, jute PLA/fiber composite can be suitable due to excellent mechanical properties and low thermal conductivity.

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Section: Introductionmentioning

confidence: 99%

Physicomechanical and erosion wear characterization of PLA/Jute fiber biocomposite

Sharma,

Kumar

2023

Journal of Elastomers & Plastics

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“…The ability of these implants to change shape, deploy, or deliver therapeutic agents in response to specific physiological conditions or external cues can significantly improve treatment effectiveness. For example, shapememory implants can be compressed for minimally invasive insertion and then expand to their original shape once inside the body, reducing surgical trauma and improving implant stability [12][13][14][15].…”

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A comprehensive review to find capabilities of 4D printing in implantable medical devices

Sharma,

Vishwakarma,

Gupta

et al. 2024

Materialwissenschaft Werkst

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The field of 4D printing has emerged as a promising technology in the realm of implantable medical devices. Unlike traditional 3D printing, 4D printing allows for the fabrication of materials that can change shape or function over time in response to external stimuli. This review paper provides an overview of the application of 4D printing in implantable medical devices, highlighting its potential benefits, challenges, and future directions. This paper provide an overview of 4D printing, exploring the application of 4D printing in implantable medical devices and discuss the advantages and challenges of 4D‐printed implants. These advantages may include patient‐specific customization, enhanced functionality and performance, and minimally invasive procedures. Additionally, the paper addresses the challenges and future prospective associated with material selection, fabrication techniques, scalability, and regulatory and ethical considerations in the context of 4D printing. By addressing these topics, this review paper aims to provide a comprehensive understanding of the application of 4D printing in implantable medical devices. It seeks to contribute to the existing body of knowledge in the field and inspire further research and innovation in this promising area of healthcare technology.

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Mechanical and Thermal Properties of 3D‐Printed Biocomposites of Polylactic Acid and Thermally Modified Wood Flour with Silver Nanoparticles

Yurttas,

Ayrilmis

2023

Macro Materials & Eng

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This study investigates the effects of thermal treatment and silver nanoparticles on the mechanical and thermal properties of additively manufactured wood/polylactic acid (PLA) specimens. The 5 and 10 wt% additions of the wood flour into the PLA matrix are done in the twin screw extruder. The test specimens are produced from the filaments with a diameter of 1.75 mm using 3D printer. The mechanical properties of the 3D‐printed wood/PLA specimens are affected by the wood flour content, thermal treatment of wood, and silver nanoparticles. The 3D‐printed neat PLA specimens have better mechanical properties than the wood flour‐filled PLA specimens. The bending strength of the specimens enhances with increasing wood flour content while the tensile strength decreases. The increases in the mechanical properties reveal that the thermal treatment of the wood improves the compatibility between wood and PLA matrix, which hereby improves the interfacial adhesion. The addition of the silver nanoparticles positively affects the mechanical properties and it is more compatible with thermally modified wood particles as compared to the untreated wood particles.

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Effect of wood flour and nano‐SiO₂ on stimulus response, mechanical, and thermal behavior of 3D printed polylactic acid composites

Cited by 8 publications

References 34 publications

Physicomechanical and erosion wear characterization of PLA/Jute fiber biocomposite

Physicomechanical and erosion wear characterization of PLA/Jute fiber biocomposite

A comprehensive review to find capabilities of 4D printing in implantable medical devices

Mechanical and Thermal Properties of 3D‐Printed Biocomposites of Polylactic Acid and Thermally Modified Wood Flour with Silver Nanoparticles

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Effect of wood flour and nano‐SiO2 on stimulus response, mechanical, and thermal behavior of 3D printed polylactic acid composites

Cited by 8 publications

References 34 publications

Physicomechanical and erosion wear characterization of PLA/Jute fiber biocomposite

Physicomechanical and erosion wear characterization of PLA/Jute fiber biocomposite

A comprehensive review to find capabilities of 4D printing in implantable medical devices

Mechanical and Thermal Properties of 3D‐Printed Biocomposites of Polylactic Acid and Thermally Modified Wood Flour with Silver Nanoparticles

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Effect of wood flour and nano‐SiO₂ on stimulus response, mechanical, and thermal behavior of 3D printed polylactic acid composites