Effect of graphene and CNFs addition on the mechanical and electrical properties of dense alumina-toughened zirconia composites

Acacio Rincón; Rodrigo Moreno; Adriana S.A. Chinelatto; Carlos F. Gutierrez; María Dolores Salvador; Amparo Borrell

doi:10.1016/j.ceramint.2015.09.037

Effect of graphene and CNFs addition on the mechanical and electrical properties of dense alumina-toughened zirconia composites

Acacio Rincón
, Rodrigo Moreno
, Adriana S.A. Chinelatto
, Carlos F. Gutierrez
, María Dolores Salvador
, Amparo Borrell^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

Fully dense carbon/alumina-toughened zirconia composites were prepared by using a combination of aqueous colloidal powder processing and spark plasma sintering technique (SPS). Various carbon elements were introduced in alumina-toughened zirconia matrix (ZA) as filler; carbon nanofibers (CNFs) and graphene oxide (GO). The influence of the addition of different carbon forms on the microstructure and on the mechanical and electrical properties was investigated. In the case of the ZAGO composites, the SPS technique allowed, in one-step, the in situ reduction of the graphene oxide during the sintering process. The fracture toughness increases for ZAGO composites in comparison to the ZA material while the hardness decreases slightly with carbon elements addition. The electrical conductivity of the ZA composite drastically increased with the addition of graphene oxide, and it reached 10 Ω cm at 2 vol%.

Original language	English
Pages (from-to)	1105-1113
Number of pages	9
Journal	Ceramics International
Volume	42
Issue number	1
DOIs	https://doi.org/10.1016/j.ceramint.2015.09.037
Publication status	Published - Jan 2016
Externally published	Yes

Keywords

B. Nanocomposites
Colloidal processing
Functional properties
Graphene
Spark plasma sintering

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10.1016/j.ceramint.2015.09.037

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title = "Effect of graphene and CNFs addition on the mechanical and electrical properties of dense alumina-toughened zirconia composites",

abstract = "Fully dense carbon/alumina-toughened zirconia composites were prepared by using a combination of aqueous colloidal powder processing and spark plasma sintering technique (SPS). Various carbon elements were introduced in alumina-toughened zirconia matrix (ZA) as filler; carbon nanofibers (CNFs) and graphene oxide (GO). The influence of the addition of different carbon forms on the microstructure and on the mechanical and electrical properties was investigated. In the case of the ZAGO composites, the SPS technique allowed, in one-step, the in situ reduction of the graphene oxide during the sintering process. The fracture toughness increases for ZAGO composites in comparison to the ZA material while the hardness decreases slightly with carbon elements addition. The electrical conductivity of the ZA composite drastically increased with the addition of graphene oxide, and it reached 10 Ω cm at 2 vol\%.",

keywords = "B. Nanocomposites, Colloidal processing, Functional properties, Graphene, Spark plasma sintering",

author = "Acacio Rinc{\'o}n and Rodrigo Moreno and Chinelatto, \{Adriana S.A.\} and Gutierrez, \{Carlos F.\} and Salvador, \{Mar{\'i}a Dolores\} and Amparo Borrell",

year = "2016",

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volume = "42",

pages = "1105--1113",

journal = "Ceramics International",

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T1 - Effect of graphene and CNFs addition on the mechanical and electrical properties of dense alumina-toughened zirconia composites

AU - Rincón, Acacio

AU - Moreno, Rodrigo

AU - Chinelatto, Adriana S.A.

AU - Gutierrez, Carlos F.

AU - Salvador, María Dolores

AU - Borrell, Amparo

PY - 2016/1

Y1 - 2016/1

N2 - Fully dense carbon/alumina-toughened zirconia composites were prepared by using a combination of aqueous colloidal powder processing and spark plasma sintering technique (SPS). Various carbon elements were introduced in alumina-toughened zirconia matrix (ZA) as filler; carbon nanofibers (CNFs) and graphene oxide (GO). The influence of the addition of different carbon forms on the microstructure and on the mechanical and electrical properties was investigated. In the case of the ZAGO composites, the SPS technique allowed, in one-step, the in situ reduction of the graphene oxide during the sintering process. The fracture toughness increases for ZAGO composites in comparison to the ZA material while the hardness decreases slightly with carbon elements addition. The electrical conductivity of the ZA composite drastically increased with the addition of graphene oxide, and it reached 10 Ω cm at 2 vol%.

AB - Fully dense carbon/alumina-toughened zirconia composites were prepared by using a combination of aqueous colloidal powder processing and spark plasma sintering technique (SPS). Various carbon elements were introduced in alumina-toughened zirconia matrix (ZA) as filler; carbon nanofibers (CNFs) and graphene oxide (GO). The influence of the addition of different carbon forms on the microstructure and on the mechanical and electrical properties was investigated. In the case of the ZAGO composites, the SPS technique allowed, in one-step, the in situ reduction of the graphene oxide during the sintering process. The fracture toughness increases for ZAGO composites in comparison to the ZA material while the hardness decreases slightly with carbon elements addition. The electrical conductivity of the ZA composite drastically increased with the addition of graphene oxide, and it reached 10 Ω cm at 2 vol%.

KW - B. Nanocomposites

KW - Colloidal processing

KW - Functional properties

KW - Graphene

KW - Spark plasma sintering

UR - https://www.scopus.com/pages/publications/84946599693

U2 - 10.1016/j.ceramint.2015.09.037

DO - 10.1016/j.ceramint.2015.09.037

M3 - Article

AN - SCOPUS:84946599693

SN - 0272-8842

VL - 42

SP - 1105

EP - 1113

JO - Ceramics International

JF - Ceramics International

IS - 1

ER -

Effect of graphene and CNFs addition on the mechanical and electrical properties of dense alumina-toughened zirconia composites

Abstract

Keywords

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