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Progress in Additive Manufacturing

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26-04-2017 | Full Research Article

Investigations for obtaining desired strength of Nylon6 and Fe powder-based composite wire for FDM feedstock filament

Authors: Harish K. Garg, Rupinder Singh

Published in: Progress in Additive Manufacturing | Issue 1-2/2017

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Abstract

In the present work, an effort has been made for modelling the peak strength of Nylon6-Fe powder composite-based feedstock filament (wire) for fused deposition modelling (FDM) process. The developed filament has been used to prepare functional prototypes with ferromagnetic characteristics. The methodology involves the use of historical data approach of response surface methodology (RSM) to study the effect of input process parameters (namely: barrel temperature, die temperature, screw speed, speed of the winding machine of single screw extruder and melt flow index of composite material as rheological property) on peak strength of the filament developed. The model for prediction of peak strength of Nylon6-Fe powder composite filament has been counter verified by actual experimentation. Further, the results of the study also highlights that Nylon6-Fe composite-based FDM filament enabled successful run of this material without any change in hardware/software of the commercial FDM setup.

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Garg HK, Singh R (2012) Experimental investigations for development of pattern for dies using FDM. Mater Sci Forum 701:77–83CrossRef

Kumar P, Ahuja IPS, Singh R (2012) Application of fusion deposition modelling for rapid investment casting—a review. Int J Mater Eng Innov 3:204–227CrossRef

Garg HK, Singh R (2012) Pattern development for manufacturing applications with fused deposition modelling-a case study. Int J Autom Mech Eng 7:981–992CrossRef

Chabbra M, Singh R (2011) Rapid casting solution. Rapid Prototyp J 17:328–350CrossRef

Jacobs PF, Hilton PD (2000) Rapid tooling and industrial applications. Marcel Dekker Ltd., ISBN-9780824787882, pp 10–18

Tromans G (2003) Developments in rapid casting. Professional Engineering, pp 14–20. ISBN: 186058390392

Wohlers TT (2006) Wohlers report 2006: RP, RT, RM state of the industry. Annual Worldwide Progress Report. Wohlers Associates Inc., Fort Collins CO

Masood SH, Song WQ (2004) Development of new metal/polymer materials for rapid tooling using fused deposition modelling. Mater Des 25:587–594CrossRef

Masood SH, Song WQ (2005) Thermal Characteristics of a new metal/polymer material for FDM rapid prototyping process. Assem Autom 25:309–315CrossRef

10.

Upcraft S, Fletcher R (2003) The rapid prototyping technologies. Assem Autom 23:318–330CrossRef

11.

Kruth JP (1991) Material manufacturing by rapid prototyping technologies. CIRF Annu 40:603–614CrossRef

12.

Agarwala MK, Van WR, Bandyopadhyay A, Whalen PJ, Safari A, Danforth SC (1996) Fused deposition of ceramics and metals: an overview. In: Proceedings of the Solid Freeform Fabrication Symposium, University of Texas, Austin, pp 385–392

13.

Jain P, Kuthe AM (2013) Feasibility study of manufacturing using rapid prototyping: FDM approach. Proc Eng 63:4–11

14.

Dyrbus G (2010) Investigation on quality of rapid prototyping FDM method. In: 14th International Research/Expert Conference, Trend in the development of Machinery and Associated Technology, 11–18th September, TMT 2010, Mediterranean Cruise

15.

Lee CW, Chua CK, Cheah CM, Tan LH, Feng C (2004) Rapid investment casting: direct and indirect approaches via fused deposition modelling. Int J Adv Manuf Technol 23:93–101CrossRef

16.

Singh R (2014) Process capability analysis of fused deposition modelling for plastic components. Rapid Prototyp J 20:69–76CrossRef

17.

Bakar NSA, Alkahari MR, Boejang H (2010) Analysis on fused deposition modelling performance. J Zhejiang Univ Sci A 11:972–977CrossRef

18.

Rochus P, Plesseria JY, Elsen MV, Kruth JP, Carrusc R, Dormal T (2007) New applications of rapid prototyping and rapid manufacturing (RP/RM). Act Astronautic 61:352–359CrossRef

19.

Singh R, Singh S (2014) Development of nylon based FDM filament for rapid tooling application. J Inst Eng 95:103–108

20.

Zein I, Hutmacher DW, Tan KC, Teoh SH (2002) Fused deposition modeling of novel scaffold architectures for tissue engineering applications. Biomaterials 23:1169–1185CrossRef

21.

Das MK, Ghoshdastida PS (2002) Experimental validation of a quasi three-dimensional conjugate heat transfer model for the metering section of a single-screw plasticating extruder. J Mater Process Technol 120:397–411CrossRef

22.

Kumar R, Dhiman S (2013) A study of sliding wear behaviour of aluminium-7075 alloy and aluminium-7075 hybrid composite by RSM. Mater Des 50:351–359CrossRef

23.

Garg HK, Singh R (2015) Comparison of wear behavior of ABS and Nylon6—Fe powder composite parts prepared with fused deposition modelling. J Cent S Univ 22(10):3705–3711CrossRef

Title: Investigations for obtaining desired strength of Nylon6 and Fe powder-based composite wire for FDM feedstock filament
Authors: Harish K. Garg
Rupinder Singh
Publication date: 26-04-2017
Publisher: Springer International Publishing
Published in: Progress in Additive Manufacturing / Issue 1-2/2017
Print ISSN: 2363-9512
Electronic ISSN: 2363-9520
DOI: https://doi.org/10.1007/s40964-017-0022-2

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