Orientation Dependence of Plastic Deformation Behavior and Fracture Energy Absorption Mechanism around Vickers Indentation of Textured Ti3SiC2 Sintered Body

Yuji Shirakami; Ken-ichi Ikeda; Seiji Miura; Koji Morita; Tohru S. Suzuki; Yoshio Sakka

doi:10.2320/matertrans.MT-Y2022006

Mechanics of Materials

Orientation Dependence of Plastic Deformation Behavior and Fracture Energy Absorption Mechanism around Vickers Indentation of Textured Ti₃SiC₂ Sintered Body

Yuji Shirakami, Ken-ichi Ikeda, Seiji Miura, Koji Morita, Tohru S. Suzuki, Yoshio Sakka

Author information

Keywords: Ti₃SiC₂, texture, Vickers indentation, fracture energy absorption, anisotropy

JOURNAL FREE ACCESS FULL-TEXT HTML

2023 Volume 64 Issue 3 Pages 650-656

DOI https://doi.org/10.2320/matertrans.MT-Y2022006

Browse “Advance online publication” version

Details

Published: March 01, 2023 Received: November 05, 2022 Released on J-STAGE: February 25, 2023 Accepted: December 02, 2022 Advance online publication
Version 2 :February 03, 2023
Version 1 :December 23, 2022
Revised: -
Version information
Published online: February 03, 2023 Reason for change: Version has been updated. Changed from previous version: Fulltext PDF,Other Summary of changes: ■point1: page1 right paragraph
(before) Other MAX phase ceramics showed the same trend^19,20)
(after) Other MAX phase ceramics showed the same trend^19-21)
(reason) We did not include reference 21 in the text.

■point2: page1 right paragraph
(before) This study aims to clarify the effect of orientation on plastic deformation behavior and the mechanism of fracture energy absorption near the indentation in a textured Ti3SiC2 material, which was fabricated using slip casting in a magnetic field and SPS.
(after) This study aims to clarify the effect of orientation on plastic deformation behavior and the mechanism of fracture energy absorption near the indentation in a textured Ti3SiC2 sintered body, which was fabricated using slip casting in a magnetic field and SPS.
(reason) We have chosen more appropriate words.

■point3: page2 left paragraph
(before) To achieve this, 1.5 wt% polyethyleneimine (molecular weight 10,000, Wako Pure Chemical Industries, Ltd.) was added to the slurry as a dispersant.
(after) To achieve this, 1.5 wt% polyethyleneimine (molecular weight 10,000, FUJIFILM Wako Pure Chemical Corporation) was added to the slurry as a dispersant.
(reason) After submitting the paper, we noticed that the name of the company had changed.

■point4: page2 left paragraph
(before) After molding, green body was sintered by SPS (FUJI-SPS625, Fuji Electronic Industrial Co.), which was heated at 600 °C for 10 min in a vacuum to remove polyethyleneimine in a carbon die with an inside diameter of 30 mm.
(after) After molding, green body was sintered by SPS (FUJI-SPS625, Fuji Electronic Industrial Co., Ltd.), which was heated at 600 °C for 10 min in a vacuum to remove polyethyleneimine in a carbon die with an inside diameter of 30 mm.
(reason) We have chosen more appropriate words.

Abstract

In order to clarify plastic deformation behavior and mechanism of fracture energy absorption of Ti₃SiC₂, Vickers indentation tests were conducted for Ti₃SiC₂ sintered bodies with various textured orientations. Textured Ti₃SiC₂ sintered bodies were fabricated by slip casting in a strong magnetic field and spark plasma sintering (SPS), and their orientation distribution were analyzed by SEM/EBSD. It was found that for the textured Ti₃SiC₂, the plastic deformation behavior around Vickers indents such as an indent shape and a grain pile-up were strongly affected by basal slip and kink deformation. Furthermore, the fracture energy absorption mechanism around the indents also depended on the texture orientations. From our results, it is concluded that the most effective factor for suppressing the crack propagation was the grain pile-up, and the second one was crack deflections.

This Paper was Originally Published in Japanese in J. Jpn. Soc. Powder Powder Metallurgy 67 (2020) 607–614

Fullsize Image

Corresponding author

Version information

Register with J-STAGE for free!