Sage Journals: Discover world-class research

Abstract

This paper reports the 3D printing of fibre-reinforced ceramic composite with hierarchical structures. Through printing precursor formulation, short SiC fibres have been successfully incorporated into silicate materials and gradient porous hierarchical structure has been achieved for the printed parts. The mechanical testing shows a 27% improvement in impact strength, 22% improvement in flexural modulus, and 7.5% in flexural strength compared with parts without fibre reinforcement. High-resolution tomography analysis using x-ray microscopy shows that the inner structure has a porosity of 27%, while the outer layer shows a dense structure with little pores formation. This 3D printed ceramic composite with fibre-reinforcement shows high similarity to the gradient porous structures of human bone and tooth. The results indicate that 3D printing of nano/microfibre reinforced ceramic composite with hierarchical structure is a promising method to enhance the fracture toughness of ceramics and allow accurate patient-specific customisation for their implants.

Keywords

Ceramic composite fibre reinforcement 3D printing gradient hierarchical structures

Get full access to this article

View all access options for this article.

References

Xia

, Shahedi

, Asl

, Enhanced fracture toughness of ZrB₂–SiC_w ceramics with graphene nanoplatelets. Ceram Int. 2020;46(16):24906–24915.

Launey

, Munch

, Alsem

, Designing highly toughened hybrid composites through nature-inspired hierarchical complexity. Acta Mater. 2009;57(10):2919–2932.

Chen

, Hei

, Li

, Environment-oriented low-cost Al₂O₃ ceramics with hierarchical pore structure fabricated from SiC solid waste. Int J Appl Ceram Technol. 2020;17(1):184–189.

Dong

, Fan

, Zhang

, Toughened laminated alumina/silica ceramics formed by weakening interlayer bonded strength. Solid State Phenom. 2018;281:200–205.

Hannink

, Kelly

, Muddle

BC.

Transformation toughening in zirconia-containing ceramics. J Am Ceram Soc. 2000;83(3):461–487.

Trunec

, Chlup

Higher fracture toughness of tetragonal zirconia ceramics through nanocrystalline structure. Scr Mater. 2009;61(1):56–59.

Song

, Fan

, Ma

, Crack deflection occurs by constrained microcracking in nacre. Acta Mech Sin. 2018;34:143–150.

Braginskyab

, Przybylaa

CP.

Simulation of crack propagation/deflection in ceramic matrix continuous fiber reinforced composites with weak interphase via the extended finite element method. Compos Struct. 2016;136:538–545.

Kennedy

Ceramic Matrix Composite Technology is GE's Centerpiece Jet Propulsion Strategy for the 21st Century. The GE Aviation Blog. 2019, April 22 [cited 2021 April 19]. Available from: https://blog.geaviation.com/technology/42869/.

10.

Uesaka

SiC fibers see increasing use in high-temperature applications. Nikkei Asia. 2017, March 25 [cited 2021 April 19]. Available from: https://asia.nikkei.com/Business/SiC-fibers-see-increasing-use-in-high-temperature-applications.

11.

Naslain

Fibre-matrix interphases and interfaces in ceramic matrix composites processed by CVI. Compos Interfaces. 1993;1(3):253–286.

12.

Krenkel

Ceramic matrix composites: fiber reinforced ceramics and their applications. Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim;2008.

13.

Ohji

, Fukushima

Macro-porous ceramics: processing and properties. Int Mater Rev 2012;57(2):115–131.

14.

Deng

, She

, Inagaki

, Reinforcement by crack-tip blunting in porous ceramics. J Eur Ceram. 2004;24(7):2055–2059.

15.

Ritchie

, Buehler

, Hansma

Plasticity and toughness in bone. Phys Today. 2009;62:41–47.

16.

Liu

, Ren

, Wang

, Hierarchical porous ceramics with 3D reticular architecture and efficient flow-through filtration towards high-temperature particulate matter capture. Chem Eng J. 2019;362:504–512.

17.

Liu

, Wei

, Feng

, R-curve behavior of laminated ZrB₂-SiC/graphite ceramics in two different directions. Ceram Int. 2017;43(8):6612–6617.

18.

Liu

, Jiang

, Li

, 3D printing of metal-organic frameworks decorated hierarchical porous ceramics for high-efficiency catalytic degradation. Chem Eng J. 2020;397:125392.

19.

Jones

, Lee

, Hench

LL.

Hierarchical porous materials for tissue engineering. Phil Trans R Soc A. 2006;364:263–281.

20.

Grujicic

, Snipes

, Ramaswami

Ballistic impact behavior of nacre-like laminated composites consisting of B₄C tablets and polyurea matrix. J Mater Eng Perform. 2016;25(3):977–994.

21.

Sridhar

, Rajeswari

Biomaterials corrosion. Corros Rev. 2009;27:287–332.

22.

Matassi

, Botti

, Sirleo

, Porous metal for orthopedics implants. Clin Cases Miner Bone Metab. 2013;10(2):111–115.

3D printing of fibre-reinforced ceramic composites with hierarchical structure

Abstract

Keywords

Get full access to this article

References