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On Study of Stress Intensity Factors for Different FGM Plates Having Inclined Edge Crack Using Extended Finite Element Method Read chapter Read first chapter

2021 | OriginalPaper | Chapter

On Investigation of Dimensional Deviation for Hybrid Composite Matrix of PLA

Authors : Sudhir Kumar, Rupinder Singh, T. P. Singh, Ajay Batish

Published in: Advances in Metrology and Measurement of Engineering Surfaces

Publisher: Springer Singapore

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Abstract

This paper deals with the investigations for controlling dimensional deviations of 3D printed thermoplastic composite matrix-based prototypes with fused deposition modelling (FDM). The dimensional deviation results suggested that infill density 60%, infill angle 45° and infill speed of 70 mm/s are the optimized printing condition, but only infill density is the significant parameter in the present investigation. Surface hardness analysis supported the observed trend for dimensional deviation. It has been observed that the 3D printed prototype held very low electrical conductivity (<10−6 S/cm) and was suitable for structural engineering applications.

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Literature
1.
Singh, S., Singh, G., Prakash, C., & Ramakrishna, S. (2020). Current status and future directions of fused filament fabrication. Journal of Manufacturing Processes55, 288–306.
2.
Singh, R., Kumar, R., & Ahuja, I. P. (2018). Mechanical, thermal and melt flow of aluminum-reinforced PA6/ABS blend feedstock filament for fused deposition modeling. Rapid Prototyping Journal, 24(9), 1455–1468.CrossRef
3.
Kumar, R., Singh, R., & Ahuja, I. P. (2019). Friction stir welding of ABS-15Al sheets by introducing compatible semi-consumable shoulder-less pin of PA6-50Al. Measurement, 131, 461–472.CrossRef
4.
Kumar, S., Singh, R., Singh, T. P., & Batish, A. (2019). On investigation of rheological, mechanical and morphological characteristics of waste polymer-based feedstock filament for 3D printing applications. Journal of Thermoplastic Composite Materials. 0892705719856063. https://​doi.​org/​10.​1177%2F08927057198560​63.
5.
Pandey, A., Singh, G., Singh, S., Jha, K., & Prakash, C. (2020). 3D printed biodegradable functional temperature-stimuli shape memory polymer for customized scaffoldings. Journal of the Mechanical Behavior of Biomedical Materials, 103781.
6.
Kumar, S., Singh, R., Singh, T. P., & Batish, A. (2019). Investigations of polylactic acid reinforced composite feedstock filaments for multimaterial three-dimensional printing applications. In Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, p. 0954406219861665.
7.
Poomathi, N., Singh, S., Prakash, C., Patil, R. V., Perumal, P. T., Barathi, V. A., Balasubramanian, K. K., Ramakrishna, S. & Maheshwari, N. U. (2019). Bioprinting in ophthalmology: current advances and future pathways. Rapid Prototyping Journal.
8.
Singh, S., Prakash, C., Singh, M., Mann, G. S., Gupta, M. K., Singh, R., & Ramakrishna, S. (2019). Poly-lactic-Acid: Potential Material for Bio-printing Applications. In Biomanufacturing (pp. 69–87). Cham: Springer.
9.
Mann, G. S., Singh, L. P., Kumar, P., Singh, S., & Prakash, C. (2019). On briefing the surface modifications of polylactic acid: A scope for betterment of biomedical structures. Journal of Thermoplastic Composite Materials, 0892705719856052.
10.
Singh, H., Singh, S., & Prakash, C. (2019). Current trends in biomaterials and bio-manufacturing. In Biomanufacturing (pp. 1–34). Cham: Springer.
11.
Scaffaro, R., Lopresti, F., & Botta, L. (2018). PLA based biocomposites reinforced with Posidonia oceanica leaves. Composites Part B Engineering, 139, 1–11.CrossRef
12.
Nasrin, R., Biswas, S., Rashid, T. U., Afrin, S., Jahan, R. A., Haque, P., et al. (2017). Preparation of Chitin-PLA laminated composite for implantable application. Bioactive Materials, 2(4), 199–207.CrossRef
13.
Lewis, J. S., Barani, Z., Magana, A. S., Kargar, F., & Balandin, A. A. (2019). Thermal and electrical conductivity control in hybrid composites with graphene and boron nitride fillers. Materials Research Express, 6(8), 085325.CrossRef
14.
Liu, C., Dong, Y., Lin, Y., Yan, H., Zhang, W., Bao, Y., et al. (2019). Enhanced mechanical and tribological properties of graphene/bismaleimide composites by using reduced graphene oxide with non-covalent functionalization. Composites Part B Engineering, 165, 491–499.CrossRef
15.
Yu, B., Wang, M., Sun, H., Zhu, F., & Han, J. (2007). Bhat G Preparation and properties of poly (lactic acid)/magnetic Fe3O4 composites and nonwovens. RSC Advances, 7(66), 41929–41935.CrossRef
16.
Kumar, S., Singh, R., Singh, T. P., & Batish, A. (2019). Investigations for magnetic properties of PLA-PVC-Fe3O4-wood dust blend for self-assembly applications. Journal of Thermoplastic Composite Materials. 0892705719857778.
17.
Kumar, S., Singh, R., Singh, T. P, & Batish, A. (2019). Multimaterial printing and characterization for mechanical and surface properties of functionally graded prototype. In Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 0954406219867984.
18.
Singh, R., Kumar, R., & Kumar, S. (2017). Polymer waste as fused deposition modeling feed stock filament for industrial applications. Reference Module in Material Science and Engineering, 1–12.
Metadata
Title
On Investigation of Dimensional Deviation for Hybrid Composite Matrix of PLA
Authors
Sudhir Kumar
Rupinder Singh
T. P. Singh
Ajay Batish
Copyright Year
2021
Publisher
Springer Singapore
Book
Advances in Metrology and Measurement of Engineering Surfaces

Print ISBN: 978-981-15-5150-5

Electronic ISBN: 978-981-15-5151-2

Copyright Year: 2021

DOI
https://doi.org/10.1007/978-981-15-5151-2_10

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