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The International Journal of Advanced Manufacturing Technology

Published in:

24-02-2024 | ORIGINAL ARTICLE

Performance of additively manufactured composite mold with uniform fiber orientation

Authors: Swayam Shree, Krishnamurthy Jayaraman, Arnaud Dereims, Ravi Raveendra

Published in: The International Journal of Advanced Manufacturing Technology | Issue 7-8/2024

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Abstract

The spring-in phenomenon or reduced angle observed in a molded composite part with angled sides or an L-shape is commonly attributed to material anisotropy in the molded part and mismatched thermal expansion between the conventional metal tool and the molded part. This paper investigates the distortion and spring-in of a compression molded carbon fabric reinforced epoxy composite part with angled sides, using composite tooling that is made by extrusion deposition additive manufacturing (EDAM). The composite tooling was made from carbon fiber reinforced polyetherimide (ULTEM) by EDAM; as a result, material anisotropy existed in both tooling and molded part. In the present study, a uniform vertical orientation was used during the extrusion deposition printing of the mold, in order to promote heat transfer along the press closing direction. The thermomechanical properties were measured for the tooling material from EDAM-printed plaques and for the composite part material from molded plaques; the measured inputs were then used in simulation of mold deformation, residual stresses, and part distortion. The spring-in predicted for the part molded with the EDAM tool was 1.4°, which is close to the experimentally measured spring-in of 1.3°. The spring-in predicted for a similar molding cycle with the steel mold was much higher at 2.6°.

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Post BK et al (2016) The economics of big area additive manufacturing. Solid Freeform Fabrication 2016:1176–1182

Huelskamp SR, Osborn T (2017) Large format additively manufactured tooling for out-of-autoclave aerospace composites. Proceedings of the Society for the Advancement of Material and Process Engineering Conference (SAMPE 2017), Seattle, WA, p. 13

Nuhiji B, Swait T, Bower MP, Green JE, Day RJ, Scaife RJ (2019) Tooling materials compatible with carbon fibre composites in a microwave environment. Compos B Eng 163:769–778CrossRef

Hassen AA, JL et al (2019) Simulation assisted design for an additively manufactured autoclave tool accounting for an anisotropic expansion. Proceedings of the Composites and Advanced Materials Expo (CAMX 2019). Anaheim, California, p.10

Tekinalp HL, Kunc V, Velez-Garcia GM, Duty CE, Love LJ, Naskar AK et al (2014) Highly oriented carbon fiber-polymer composites via additive manufacturing. Compos Sci Technol 105:144–150CrossRef

Love LJ, Kunc V, Rios O, Duty CE, Elliott AM, Post BK et al (2014) The importance of carbon fiber to polymer additive manufacturing. J Mater Res 29:1893–1898CrossRef

Duty C, Ajinjeru C, Kishore V, Compton B, Hmeidat N, Chen X et al (2018) What makes a material printable? A viscoelastic model for extrusion-based 3D printing of polymers. J Manuf Process 35:526–537CrossRef

Duty CE, Kunc V, Compton B, Post B, Erdman D, Smith R et al (2017) Structure and mechanical behavior of Big Area Additive Manufacturing (BAAM) materials. Rapid Prototyp J 23:181–189CrossRef

Liverani A, Bacciaglia A, Nisini E, Ceruti A (2023) Conformal 3D material extrusion additive manufacturing for large moulds. Appl Sci 13:1892CrossRef

10.

Corrado A, Polini W, Sorrentino L, Bellini C (2018) Geometrical deviation analysis of CFRP thin laminate assemblies: Numerical and experimental results. Compos Sci Technol 168:1–11CrossRef

11.

Sorrentino L, Bellini C (2015) Compaction influence on spring-in of thin composite parts: experimental and numerical results. J Compos Mater 49:2149–2158CrossRef

12.

Cinar K, Guven I, Ersoy N (2020) Effect of residual stress on the bending response of L-shaped composite laminates. Compos Struct 246:112425CrossRef

13.

Ersoy N, Potter K, Wisnom MR, Clegg MJ (2005) Development of spring-in angle during cure of a thermosetting composite. Compos Part A Appl Sci Manuf 36:1700–1706CrossRef

14.

Bivens C, Wood A, Ruble D, Rangapuram M, Dasari SK, Chandrashekhara K et al (2023) Additively manufactured carbon fiber- reinforced thermoplastic composite mold plates for injection molding process. Appl Compos Mater 30:1569–1586CrossRef

15.

Elkholy A, Kempers R (2022) An accurate steady-state approach for characterizing the thermal conductivity of additively manufactured polymer composites. Case Stud Therm Eng 31:101829CrossRef

16.

Zohdi N, Yang R (2021) Material anisotropy in additively manufactured polymers and polymer composites: a review. Polymers 13(19):3368CrossRef

17.

Smith M, Kim S, Lambert A, Walde M, Lindahl J, Mungale K et al (2019) Maximizing the performance of a 3D printed heat sink by accounting for anisotropic thermal conductivity during filament deposition. Proceedings of the Eighteenth IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITHERM 2019), pp. 626–632

18.

Bogdanor M et al (2020) Design of composite compression molding tools using large scale additive manufacturing. Proceedings of the Society for the Advancement of Material and Process Engineering Conference (SAMPE 2020), Seattle, WA, p. 15

19.

Graciani E, Justo J, Lucia ZP (2020) Determination of in-plane and through-the-thickness coefficients of thermal expansion in composite angle brackets using digital image correlation. Compos Struct 238:111939CrossRef

20.

Kappel E, Stefaniak D, Huehne C (2013) Process distortions in prepreg manufacturing - an experimental study on CFRP L-profiles. Compos Struct 106:615–625CrossRef

21.

Horberg E, Nyman T, Akermo M, Hallstrom S (2019) Thickness effect on spring-in of prepreg composite L-profiles - an experimental study. Compos Struct 209:499–507CrossRef

22.

Sudbury TZ, Springfield R, Kunc V, Duty C (2017) An assessment of additive manufactured molds for hand-laid fiber reinforced composites. Int J Adv Manuf Technol 90:1659–1664CrossRef

23.

Galinska A (2017) Material models used to predict spring-in of composite elements: a comparative study. Appl Compos Mater 24:159–170CrossRef

24.

Liu Q, Lin Y, Zong Z, Sun G, Li Q (2013) Lightweight design of carbon twill weave fabric composite body structure for electric vehicle. Compos Struct 97:231–238CrossRef

25.

Ng SP, Tse PC, Lau KJ (1998) Numerical and experimental determination of in-plane elastic properties of 2/2 twill weave fabric composites. Compos Part B Eng 29:735–744CrossRef

26.

Chawla KK (1987) Composite materials. Springer Verlag, New YorkCrossRef

Title: Performance of additively manufactured composite mold with uniform fiber orientation
Authors: Swayam Shree
Krishnamurthy Jayaraman
Arnaud Dereims
Ravi Raveendra
Publication date: 24-02-2024
Publisher: Springer London
Published in: The International Journal of Advanced Manufacturing Technology / Issue 7-8/2024
Print ISSN: 0268-3768
Electronic ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-024-13220-8

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