Additively manufactured carbon fiber-reinforced composites: State of the art and perspective

Nekoda van de Werken, Halil Tekinalp, Pouria Khanbolouki, Soydan Ozcan, Andrew Williams, Mehran Tehrani

Research output: Contribution to journalReview articlepeer-review

429 Scopus citations

Abstract

While polymer additive manufacturing (AM) has advanced significantly over the past few decades, the limitations in material properties, speed of manufacture, and part size have relegated this technology to the space of rapid prototyping rather than the legitimate manufacture of end-use parts. Carbon fiber offers a low density, a low coefficient of thermal expansion, and high thermal conductivity and is an ideal material for bringing polymer-based AM from the realm of form and fit to that of form, fit, and function. Use of carbon fiber in AM can improve material properties, reduce the time required to manufacture functional parts compared with traditional subtractive technologies, and reduce warping, thereby enabling a larger possible build envelope. Therefore, the addition of carbon fiber to various AM technologies is of increasing interest in academic and industrial communities. This paper examines the work performed in this fast-growing area to date. Specifically, the effects of fiber reinforcement on the structure and mechanical properties of 3D printed parts are investigated within the body of literature. Upper bounds for tensile properties of carbon fiber composites are theoretically evaluated and compared with experimentally measured values. Moreover, current and potential applications of additively manufactured carbon fiber composites in the context of desktop 3D printing and big area AM are discussed. Recent innovations and industry breakthroughs in this field are also examined. This review is intended to organize and synthesize the present body of work surrounding AM of carbon fiber reinforced plastics, identify the most promising technologies, and prescribe viable research and development paths forward to advance AM from the application space of rapid prototyping to that of functional, load-bearing, end-use parts.

Original languageEnglish
Article number100962
JournalAdditive Manufacturing
Volume31
DOIs
StatePublished - Jan 2020

Funding

M.T. acknowledges the support by the Air Force Research Lab Cooperative AgreementFA9453-18-2-0022.

FundersFunder number
Air Force Research Lab Cooperative AgreementFA9453-18-2-0022AgreementFA9453-18-2-0022

    Keywords

    • Additive manufacturing
    • Carbon fiber
    • Fiber-reinforced composite
    • Polymer
    • Review

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