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2017 | OriginalPaper | Chapter

Determination and Comparison of the Anisotropic Strengths of Fused Deposition Modeling P400 ABS

Authors : Kshitiz Upadhyay, Ravi Dwivedi, Ankur Kumar Singh

Published in: Advances in 3D Printing & Additive Manufacturing Technologies

Publisher: Springer Singapore

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Abstract

Fused deposition modeling (FDM) is an additive layered manufacturing technique used to build prototypes and functional products out of thermoplastic materials. The properties of the FDM parts are affected by many factors like geometry of the material bead, process conditions, and orientation of the part and layers etc. The present study focuses on the effect of build direction on the mechanical properties of acrylonitrile butadiene styrene (ABS) P400 part specimens. Tensile, compressive, Izod impact, and hardness tests were performed on specimens built in the horizontal and vertical orientations with an intention to find the build direction that gives maximum strength in a particular working condition. Fractured specimens were then analyzed under the Jeol JSM 5600 Scanning Electron Microscope to study the impact failure pattern. The findings of this research can further be used to formulate product design rules for optimizing mechanical strength in layered manufacturing.

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Literature
1.
go back to reference Pham DT, Demov SS (2001) Rapid manufacturing: the technologies and applications of rapid prototyping and rapid tooling. Springer-Verlag London Limited Pham DT, Demov SS (2001) Rapid manufacturing: the technologies and applications of rapid prototyping and rapid tooling. Springer-Verlag London Limited
2.
go back to reference Kai CC, Fai LK (2000) Rapid prototyping: principles and applications in manufacturing. World Scientific Kai CC, Fai LK (2000) Rapid prototyping: principles and applications in manufacturing. World Scientific
3.
go back to reference Tagore GRN, Anjikar SD, Venu Gopal A (2007) Multi objective optimisation of build orientation for rapid prototyping with fused deposition modeling (FDM). In: Seventeenth Solid Freeform Fabrication (SFF) Symposium, Austin, pp 246–255 Tagore GRN, Anjikar SD, Venu Gopal A (2007) Multi objective optimisation of build orientation for rapid prototyping with fused deposition modeling (FDM). In: Seventeenth Solid Freeform Fabrication (SFF) Symposium, Austin, pp 246–255
4.
go back to reference Wright PK (2001) 21st century manufacturing. Prentice Hall Wright PK (2001) 21st century manufacturing. Prentice Hall
5.
go back to reference Ahn SH, Montero M, Odell D, Roundy S, Wright PK (2002) Anisotropic material properties of fused deposition modeling ABS. Rapid Prototyping J 8(4):248–257CrossRef Ahn SH, Montero M, Odell D, Roundy S, Wright PK (2002) Anisotropic material properties of fused deposition modeling ABS. Rapid Prototyping J 8(4):248–257CrossRef
6.
go back to reference Sun Q, Rizvi GM, Bellehumeur CT, Gu P (2008). Effect of processing conditions on the bonding quality of FDM polymer filaments. Rapid Prototyping J 14(2):72–80 Sun Q, Rizvi GM, Bellehumeur CT, Gu P (2008). Effect of processing conditions on the bonding quality of FDM polymer filaments. Rapid Prototyping J 14(2):72–80
7.
go back to reference Swanson WJ, Turley PW, Leavitt PJ, Karwoski PJ, LaBossiere E, Skubic RL (2004) High temperature modeling apparatus. United States Patent. US 6,722,872 B1” Swanson WJ, Turley PW, Leavitt PJ, Karwoski PJ, LaBossiere E, Skubic RL (2004) High temperature modeling apparatus. United States Patent. US 6,722,872 B1”
8.
go back to reference Novakova-Marcincinova L, Novak-Marcincin J (2012) Testing of materials for rapid prototyping fused deposition modelling technology. World Academy of Science, Engineering and Technology 70(73) Novakova-Marcincinova L, Novak-Marcincin J (2012) Testing of materials for rapid prototyping fused deposition modelling technology. World Academy of Science, Engineering and Technology 70(73)
9.
go back to reference Sood Anoop Kumar, Ohdar RK, Mahapatra SS (2010) Parametric appraisal of mechanical property of fused deposition modeling parts. Mater Des 31:287–295CrossRef Sood Anoop Kumar, Ohdar RK, Mahapatra SS (2010) Parametric appraisal of mechanical property of fused deposition modeling parts. Mater Des 31:287–295CrossRef
10.
go back to reference Lee BH, Abdullah J, Khan ZA (2005) Optimization of rapid prototyping parameters for production of flexible ABS object. J Mater Process Technol 169:54–61CrossRef Lee BH, Abdullah J, Khan ZA (2005) Optimization of rapid prototyping parameters for production of flexible ABS object. J Mater Process Technol 169:54–61CrossRef
11.
go back to reference Hossain MS, Ramos J, Espalin D, Perez M, Wicker R (2013) Improving tensile mechanical properties of FDM-manufactured specimens via modifying build parameters. In: International Solid Freeform Fabrication Symposium, pp 380–392 Hossain MS, Ramos J, Espalin D, Perez M, Wicker R (2013) Improving tensile mechanical properties of FDM-manufactured specimens via modifying build parameters. In: International Solid Freeform Fabrication Symposium, pp 380–392
12.
go back to reference Fatimatuzahraa AW, Farahaina B, Yusoff WAY (2011) The effect of employing different raster orientations on the mechanical properties and microstructure of fused deposition modeling parts. In: IEEE symposium on business, engineering and industrial applications, pp 22–27 Fatimatuzahraa AW, Farahaina B, Yusoff WAY (2011) The effect of employing different raster orientations on the mechanical properties and microstructure of fused deposition modeling parts. In: IEEE symposium on business, engineering and industrial applications, pp 22–27
13.
go back to reference Anitha R, Arunachalam S, Radhakrishnan P (2001) Critical parameters influencing the quality of prototypes in fused deposition modelling. J Mater Process Technol 118:385–388 Anitha R, Arunachalam S, Radhakrishnan P (2001) Critical parameters influencing the quality of prototypes in fused deposition modelling. J Mater Process Technol 118:385–388
14.
go back to reference Reddy BV, Reddy NV, Ghosh A (2007) Fused deposition modelling using direct extrusion. Virtual Phys Prototyping 2:51–60CrossRef Reddy BV, Reddy NV, Ghosh A (2007) Fused deposition modelling using direct extrusion. Virtual Phys Prototyping 2:51–60CrossRef
15.
go back to reference Es-Said OS, Foyos J, Noorani R, Mandelson M, Marloth R, Pregger BA (2000) Effect of layer orientation on mechanical properties of rapid prototyped samples. Mater Manuf Process 15(1):107–122CrossRef Es-Said OS, Foyos J, Noorani R, Mandelson M, Marloth R, Pregger BA (2000) Effect of layer orientation on mechanical properties of rapid prototyped samples. Mater Manuf Process 15(1):107–122CrossRef
16.
go back to reference Thrimurthulu K, Pandey PM, Reddy NV (2004) Optimum part deposition orientation in fused deposition modelling. Int J Mach Tools Manuf 44:585–594CrossRefMATH Thrimurthulu K, Pandey PM, Reddy NV (2004) Optimum part deposition orientation in fused deposition modelling. Int J Mach Tools Manuf 44:585–594CrossRefMATH
17.
go back to reference Waghchore RK (2012) Determination of build orientation of rapid prototyping (RP) components for optimum builds time. Int J Adv Technol Eng Res 2(2):27–31 Waghchore RK (2012) Determination of build orientation of rapid prototyping (RP) components for optimum builds time. Int J Adv Technol Eng Res 2(2):27–31
18.
go back to reference Masood SH, Rattanawong W, Iovenitti P (2003) A generic algorithm for part orientation system for complex parts in rapid prototyping. J Mater Process Technol 139(1–3):110–116CrossRef Masood SH, Rattanawong W, Iovenitti P (2003) A generic algorithm for part orientation system for complex parts in rapid prototyping. J Mater Process Technol 139(1–3):110–116CrossRef
19.
go back to reference Byun H-S, Lee KH (2006) Determination of the optimal build direction for different rapid prototyping processes using multi-criterion decision making. Robotics Comput-Integr Manuf Elsevier 22:69–80CrossRef Byun H-S, Lee KH (2006) Determination of the optimal build direction for different rapid prototyping processes using multi-criterion decision making. Robotics Comput-Integr Manuf Elsevier 22:69–80CrossRef
20.
go back to reference Lee CS, Kim SG, Kim HJ, Ahn SH (2007) Measurement of anisotropic compressive strength of rapid prototyping parts. J Mater Process Technol 187–188:627CrossRef Lee CS, Kim SG, Kim HJ, Ahn SH (2007) Measurement of anisotropic compressive strength of rapid prototyping parts. J Mater Process Technol 187–188:627CrossRef
21.
go back to reference Agnes B, Volker S (2011) Mechanical properties of fused deposition modelling parts manufactured with ULTEM*9085. ANTEC 2011, Boston Agnes B, Volker S (2011) Mechanical properties of fused deposition modelling parts manufactured with ULTEM*9085. ANTEC 2011, Boston
22.
go back to reference Anna B, Guceri S (2003) Mechanical characterization of parts fabricated using fused deposition modelling. Rapid Prototyping J 9(4):252–264CrossRef Anna B, Guceri S (2003) Mechanical characterization of parts fabricated using fused deposition modelling. Rapid Prototyping J 9(4):252–264CrossRef
23.
go back to reference Agarwala MK, Jamalabad VR, Langrana NA, Safari A, Whalen PJ, Danforth SC (1996) Structural quality of parts processed by fused deposition. Rapid Prototyping J 2(4):4–19CrossRef Agarwala MK, Jamalabad VR, Langrana NA, Safari A, Whalen PJ, Danforth SC (1996) Structural quality of parts processed by fused deposition. Rapid Prototyping J 2(4):4–19CrossRef
24.
go back to reference ASM (1988) Engineered materials handbook, engineering plastic, ASM international, vol 2 ASM (1988) Engineered materials handbook, engineering plastic, ASM international, vol 2
Metadata
Title
Determination and Comparison of the Anisotropic Strengths of Fused Deposition Modeling P400 ABS
Authors
Kshitiz Upadhyay
Ravi Dwivedi
Ankur Kumar Singh
Copyright Year
2017
Publisher
Springer Singapore
DOI
https://doi.org/10.1007/978-981-10-0812-2_2

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