Advanced search
Publication Cover
Science and Technology of Advanced Materials Volume 21, 2020 - Issue 1
Submit an article Journal homepage
2,091
Views
8
CrossRef citations to date
0
Altmetric
Focus on Self-Healing Materials

Finite element analysis of the fracture statistics of self-healing ceramics

Shingo Ozakia Division of System Research, Faculty of Engineering, Yokohama National University, Yokohama, JapanCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-3450-6774View further author information
ORCID Icon,
Marika Nakamuraa Division of System Research, Faculty of Engineering, Yokohama National University, Yokohama, JapanView further author information
&
Toshio Osadab Superalloy and High-Temperature Materials Group, Research Center for Structural Materials, National Institute for Materials Science, Ibaraki, JapanORCID Iconhttps://orcid.org/0000-0003-1539-9264View further author information
ORCID Icon
Pages 609-625 | Received 01 Jun 2020, Accepted 21 Jul 2020, Published online: 11 Sep 2020

References

  • Zwaag S. Self-healing materials: an alternative approach to 20 centuries of materials science. The Netherlands: Springer Series in Materials Science; 2007.
  • Lange FF, Radford KC. Healing of surface cracks in polycrystalline Al2O3. J Am Ceram Soc. 1970;53(7):420–421.
  • Gupta TK. Crack healing and strengthening of thermally shocked alumina. J Am Ceram Soc. 1976;59(5–6):259–262.
  • Zhao J, Stearns LC, Harmer MP, et al. Mechanical behavior of Al2O3–SiC ‘Nanocomposite’. J Am Ceram Soc. 1993;76(2):503–510.
  • Thompson AM, Chan HM, Harmer MP. Crack healing and surface relaxation in Al2O3–SiC ‘Nanocomposite’. J Am Ceram Soc. 1995;78:567–571.
  • Ando K, Furusawa K, Takahashi K, et al. Crack-healing ability of structural ceramics and a new methodology to guarantee the structural integrity using the ability and proof-test. J Eur Ceram Soc. 2005;25(5):549–558.
  • Nakao W, Mori S, Nakamura J, et al. Self-crack-healing behavior of mullite/SiC particle/SiC whisker multi-composites and potential use for ceramic springs. J Am Ceram Soc. 2006;89(4):1352–1357.
  • Ono M, Nakao W, Takahashi K, et al. A new methodology to guarantee the structural integrity of Al2O3/SiC composite using crack healing and a proof test. Fatigue Fract Eng Mater Struct. 2007;30:599–607.
  • Osada T, Nakao W, Takahashi K, et al. Strength recovery behavior of machined Al2O3/SiC nano-composite ceramics by crack-healing. J Eur Ceram Soc. 2007;27(10):3261–3267.
  • Chu MC, Sato S, Kobayashi Y, et al. Damage healing and strengthening behavior in intelligent mullite/SiC ceramics. Fatigue Fract Eng Mater Struct. 1995;18:1019–1029.
  • Ando K, Ikeda T, Sato S, et al. A preliminary study on crack healing behavior of Si3N4/SiC composite ceramics. Fatigue Fract Eng Mater Struct. 1998;21:119–122.
  • Ando K, Kim BS, Chu MC, et al. Crack-healing and mechanical behavior of Al2O3/SiC composites at elevated temperature. Fatigue Fract Eng Mater Struct. 2004;27:533–541.
  • Nakao W, Ono M, Lee SK, et al. Critical crack-healing condition under stress of SiC whisker reinforced alumina. J Eur Ceram Soc. 2005;25:3649–3655.
  • Nakao W, Takahashi K, Ando K. Threshold stress during crack-healing treatment of structural ceramics having the crack-healing ability. Mater Lett. 2007;61(13):2711–2713.
  • Osada T, Nakao W, Takahashi K, et al. Kinetics of self-crack-healing of alumina/silicon carbide composite including oxygen partial pressure effect. J Am Ceram Soc. 2009;92(4):864–869.
  • Osada T, Kamoda K, Mitome M, et al. A novel design approach for self-crack-healing structural ceramics with 3D networks of healing activator. Sci Rep. 2017;7(1):17853.
  • Nakao W, Hayakawa T, Yanaseko T, et al. Advanced fiber reinforced self-healing ceramics for middle range temperature. Key Eng Mater. 2019;810:119–124.
  • Voyiadjis GZ, Shojaei A, Li G. A thermodynamic consistent damage and healing model for self healing materials. Int J Plasticity. 2011;27(7):1025–1044.
  • Voyiadjis GZ, Shojaei A, Li G, et al. A theory of anisotropic healing and damage mechanics of materials. Proc R Soc A. 2011;468(2137):163–183.
  • Barbero EJ, Greco F, Lonetti P. Continuum damage-healing mechanics with application to self-healing composites. Int J Damage Mech. 2005;14(1):51–81.
  • Drabi MK, Abu Al-Rub RK, Little DN. A continuum damage mechanics framework for modelling micro-damage healing. Int J Solids Struct. 2012;49:492–513.
  • Darabi MK, Abu Al-Rub RK, Masad EA, et al. Constitutive modelling of fatigue damage response of asphalt concrete materials with consideration of micro-damage healing. Int J Solids Struct. 2013;50(19):2901–2913.
  • Shojaei A, Li G, Fish J, et al. Multi-scale constitutive modelling of ceramic matrix composites by continuum damage mechanics. Int J Solids Struct. 2014;51(23–24):4068–4081.
  • Shojaei A, Sharafi S, Li G. A multiscale theory of self-crack-healing with solid healing agent assisted by shape memory effect. Mech Mater. 2015;81:25–40.
  • Voyiadjis GZ, Kattan PI. Healing and super healing in continuum damage mechanics. Int J Damage Mech. 2014;23(2):245–260.
  • Oucif C, Mauludin LM. Continuum damage-healing and super healing mechanics in brittle materials: A state-of-the-art review. Appl Sci. 2018;8(12):2350.
  • Ponnusami SA, Krishnasamy J, Turteltaub S, et al. A cohesive-zone crack healing model for self-healing materials. Int J Solids Struct. 2018;134:249–263.
  • Ozaki S, Osada T, Nakao W. Finite element analysis of the damage and healing behavior of self-healing ceramic materials. Int J Solids Struct. 2016;100:307–318.
  • Nakamura M, Takeo K, Osada T, et al. Finite element analysis of self-healing and damage processes in Alumina/SiC composite ceramics. Technologies. 2017;3(40):1–10.
  • Evans AG. Structural reliability: A processing-dependent phenomenon. J Am Ceram Soc. 1982;65(3):127–137.
  • Danzer R. A general strength distribution function for brittle materials. J Eur Ceram Soc. 1992;10(6):461–472.
  • Peterlik H. Relationship of strength and defects of ceramic materials and their treatment by Weibull theory. J Ceram Soc Japan. 2001;109(1272):S121–S126.
  • Danzer R, Supancic P, Pascual J, et al. Fracture statics of ceramics—Weibull statistics and deviations from Weibull statistics. Eng Fract Mech. 2007;74(18):2919–2932.
  • Danzer R, Lube T, Supancic P, et al. Fracture of ceramics. Adv Eng Mater. 2008;10(4):275–298.
  • Quinn GD, Morrell R. Design data for engineering ceramics: A review of the flexure test. J Am Ceram Soc. 1991;74(9):2037–2066.
  • Ozaki S, Aoki Y, Osada T, et al. Finite element analysis of fracture statistics of ceramics: effects of grain size and pore size distributions. J Am Ceram Soc. 2018;101(7):3191–3204.
  • Takeo K, Aoki Y, Osada T, et al. Finite element analysis of the size effect on ceramic strength. Materials. 2019;18(2885):1–13.
  • Oliver J. A consistent characteristic length or smeared cracking models. Int J Numer Methods Eng. 1898;28(2):461–474.
  • Kurumatani M, Terada K, Kato J. An isotropic damage model based on fracture mechanics for concrete. Eng Fract Mech. 2016;155:49–66.
  • Green DJ. Stress intensity factor estimates for annular cracks at spherical voids. J Am Ceram Soc. 1980;63(5–6):342–344.
  • Seidel J, Claussen N, Rödel J. Reliability of alumina ceramics: effect of grain size. J Am Ceram Soc. 1995;15(5):395–404.
  • Zimmermann A, Hoffman M, Flinn BD, et al. Fracture of alumina with controlled pores. J Am Ceram Soc. 1998;81(9):2449–2457.
  • Zimmermann A, Rödel J. Generalized Orowan-Petch plot for brittle fracture. J Am Ceram Soc. 1998;81:2527–2532.
  • Zimmermann A, Rodel J. Fracture statistics based on pore/grain-size interactions. J Am Ceram Soc. 1999;82(8):2279–2281.
  • Flinn BD, Bordia RK, Zimmermann A, et al. Evolution of defect size and strength of porous alumina during sintering. J Eur Ceram Soc. 2000;20(14–15):2561–2568.
  • LSCT, LS-DYNA user’s manual. LSCT Singapore. 2019.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.