Interfacial Fracture Toughness of Fiber Reinforced Titanium Matrix Composites by Push out Test

Qing Sun; Yanqing Yang; Xian Luo; Rongjun Zhang; Bin Huang; Chunling Xue

Interfacial Fracture Toughness of Fiber Reinforced Titanium Matrix Composites by Push out Test

Qing Sun
, Yanqing Yang
, Xian Luo
, Rongjun Zhang
, Bin Huang
, Chunling Xue

材料学院

Northwestern Polytechnical University Xian
Baoji University of Arts and Sciences

科研成果: 期刊稿件 › 文章 › 同行评审

9 引用（Scopus）

摘要

The model for single fiber push-out test was developed to evaluate the fracture toughness G_IIc of the fiber/matrix interface in titanium alloys reinforced by SiC monofilaments. Theoretical solution to G_IIc was obtained from fracture mechanics, and the effects of several key factors such as the applied stress needed for crack advance, crack length, and interfacial frictional shear stress were discussed. The predictions by the model were compared with the previous finite element analysis results for the interfacial toughness of the composites including Sigma1240/Ti-6-4, SCS/Ti-6-4, SCS/Timetal 834 and SCS/Timetal 21s. The results show that the model can reliably predict the interfacial toughness of the titanium matrix composites, in which interfacial debonding usually occurs at the bottom of the samples.

源语言	英语
页（从-至）	2794-2800
页数	7
期刊	Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering
卷	46
期	10
出版状态	已出版 - 1 10月 2017

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引用此

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title = "Interfacial Fracture Toughness of Fiber Reinforced Titanium Matrix Composites by Push out Test",

abstract = "The model for single fiber push-out test was developed to evaluate the fracture toughness GIIc of the fiber/matrix interface in titanium alloys reinforced by SiC monofilaments. Theoretical solution to GIIc was obtained from fracture mechanics, and the effects of several key factors such as the applied stress needed for crack advance, crack length, and interfacial frictional shear stress were discussed. The predictions by the model were compared with the previous finite element analysis results for the interfacial toughness of the composites including Sigma1240/Ti-6-4, SCS/Ti-6-4, SCS/Timetal 834 and SCS/Timetal 21s. The results show that the model can reliably predict the interfacial toughness of the titanium matrix composites, in which interfacial debonding usually occurs at the bottom of the samples.",

keywords = "Interfacial fracture toughness, Push-out test, Shear-lag approach, Titanium matrix composites (TMCs)",

author = "Qing Sun and Yanqing Yang and Xian Luo and Rongjun Zhang and Bin Huang and Chunling Xue",

year = "2017",

month = oct,

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language = "英语",

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TY - JOUR

T1 - Interfacial Fracture Toughness of Fiber Reinforced Titanium Matrix Composites by Push out Test

AU - Sun, Qing

AU - Yang, Yanqing

AU - Luo, Xian

AU - Zhang, Rongjun

AU - Huang, Bin

AU - Xue, Chunling

PY - 2017/10/1

Y1 - 2017/10/1

N2 - The model for single fiber push-out test was developed to evaluate the fracture toughness GIIc of the fiber/matrix interface in titanium alloys reinforced by SiC monofilaments. Theoretical solution to GIIc was obtained from fracture mechanics, and the effects of several key factors such as the applied stress needed for crack advance, crack length, and interfacial frictional shear stress were discussed. The predictions by the model were compared with the previous finite element analysis results for the interfacial toughness of the composites including Sigma1240/Ti-6-4, SCS/Ti-6-4, SCS/Timetal 834 and SCS/Timetal 21s. The results show that the model can reliably predict the interfacial toughness of the titanium matrix composites, in which interfacial debonding usually occurs at the bottom of the samples.

AB - The model for single fiber push-out test was developed to evaluate the fracture toughness GIIc of the fiber/matrix interface in titanium alloys reinforced by SiC monofilaments. Theoretical solution to GIIc was obtained from fracture mechanics, and the effects of several key factors such as the applied stress needed for crack advance, crack length, and interfacial frictional shear stress were discussed. The predictions by the model were compared with the previous finite element analysis results for the interfacial toughness of the composites including Sigma1240/Ti-6-4, SCS/Ti-6-4, SCS/Timetal 834 and SCS/Timetal 21s. The results show that the model can reliably predict the interfacial toughness of the titanium matrix composites, in which interfacial debonding usually occurs at the bottom of the samples.

KW - Interfacial fracture toughness

KW - Push-out test

KW - Shear-lag approach

KW - Titanium matrix composites (TMCs)

UR - https://www.scopus.com/pages/publications/85045795209

M3 - 文章

AN - SCOPUS:85045795209

SN - 1002-185X

VL - 46

SP - 2794

EP - 2800

JO - Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering

JF - Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering

IS - 10

ER -

Interfacial Fracture Toughness of Fiber Reinforced Titanium Matrix Composites by Push out Test

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