NEW PERSPECTIVES ON THE FRACTURE OF NICALON FIBERS

Seth T. Taylor; Yuntian T. Zhu; William R. Blumenthal; Michael G. Stout; Darryl P. Butt; Terry C. Lowe

NEW PERSPECTIVES ON THE FRACTURE OF NICALON FIBERS

Seth T. Taylor, Yuntian T. Zhu, William R. Blumenthal, Michael G. Stout, Darryl P. Butt, Terry C. Lowe

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

Experimental studies have been conducted to examine the strength and fracture behavior of monofilament Nicalon³ SiC fibers ranging in diameter from 8 to 22 μm. The effects of varying fiber diameter, flaw location and flaw population on the tensile behavior of individual fibers were investigated using fractography. Results indicate that variations in fiber diameter influence the apparent fiber fracture toughness (K_1c), with higher K_1cvalues observed for decreasing fiber diameters. Observations also suggest that the location of the critical flaw may play a role in the fracture of Nicalon fibers. In addition to surface flaws, three distinct internal flaw populations are seen to cause fracture in Nicalon fibers.

Original language	English
Title of host publication	Fatigue and Fracture Mechanics
Publisher	ASTM International
Pages	393-403
Volume	29
Publication status	Published - Jun 1997
Externally published	Yes
Event	Proceedings of the 1997 29th National Symposium on Fatigue and Fracture Mechanics - Stanford, CA, USA Duration: 24 Jun 1997 → 26 Jun 1997

Publication series

Name	ASTM Special Technical Publication
ISSN (Print)	1040-3094

Conference

Conference	Proceedings of the 1997 29th National Symposium on Fatigue and Fracture Mechanics
City	Stanford, CA, USA
Period	24/06/97 → 26/06/97

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@inproceedings{05e4a03e0b3c426b8461ca4c6c54446c,

title = "NEW PERSPECTIVES ON THE FRACTURE OF NICALON FIBERS",

abstract = "Experimental studies have been conducted to examine the strength and fracture behavior of monofilament Nicalon3 SiC fibers ranging in diameter from 8 to 22 μm. The effects of varying fiber diameter, flaw location and flaw population on the tensile behavior of individual fibers were investigated using fractography. Results indicate that variations in fiber diameter influence the apparent fiber fracture toughness (K1c), with higher K1c values observed for decreasing fiber diameters. Observations also suggest that the location of the critical flaw may play a role in the fracture of Nicalon fibers. In addition to surface flaws, three distinct internal flaw populations are seen to cause fracture in Nicalon fibers.",

author = "Taylor, {Seth T.} and Zhu, {Yuntian T.} and Blumenthal, {William R.} and Stout, {Michael G.} and Butt, {Darryl P.} and Lowe, {Terry C.}",

year = "1997",

month = jun,

language = "English",

volume = "29",

series = "ASTM Special Technical Publication",

publisher = "ASTM International",

pages = "393--403",

booktitle = "Fatigue and Fracture Mechanics",

note = "Proceedings of the 1997 29th National Symposium on Fatigue and Fracture Mechanics ; Conference date: 24-06-1997 Through 26-06-1997",

}

NEW PERSPECTIVES ON THE FRACTURE OF NICALON FIBERS. / Taylor, Seth T.; Zhu, Yuntian T.; Blumenthal, William R. et al.
Fatigue and Fracture Mechanics. Vol. 29 ASTM International, 1997. p. 393-403 (ASTM Special Technical Publication).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

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T1 - NEW PERSPECTIVES ON THE FRACTURE OF NICALON FIBERS

AU - Taylor, Seth T.

AU - Zhu, Yuntian T.

AU - Blumenthal, William R.

AU - Stout, Michael G.

AU - Butt, Darryl P.

AU - Lowe, Terry C.

PY - 1997/6

Y1 - 1997/6

N2 - Experimental studies have been conducted to examine the strength and fracture behavior of monofilament Nicalon3 SiC fibers ranging in diameter from 8 to 22 μm. The effects of varying fiber diameter, flaw location and flaw population on the tensile behavior of individual fibers were investigated using fractography. Results indicate that variations in fiber diameter influence the apparent fiber fracture toughness (K1c), with higher K1c values observed for decreasing fiber diameters. Observations also suggest that the location of the critical flaw may play a role in the fracture of Nicalon fibers. In addition to surface flaws, three distinct internal flaw populations are seen to cause fracture in Nicalon fibers.

AB - Experimental studies have been conducted to examine the strength and fracture behavior of monofilament Nicalon3 SiC fibers ranging in diameter from 8 to 22 μm. The effects of varying fiber diameter, flaw location and flaw population on the tensile behavior of individual fibers were investigated using fractography. Results indicate that variations in fiber diameter influence the apparent fiber fracture toughness (K1c), with higher K1c values observed for decreasing fiber diameters. Observations also suggest that the location of the critical flaw may play a role in the fracture of Nicalon fibers. In addition to surface flaws, three distinct internal flaw populations are seen to cause fracture in Nicalon fibers.

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M3 - RGC 32 - Refereed conference paper (with host publication)

VL - 29

T3 - ASTM Special Technical Publication

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BT - Fatigue and Fracture Mechanics

PB - ASTM International

T2 - Proceedings of the 1997 29th National Symposium on Fatigue and Fracture Mechanics

Y2 - 24 June 1997 through 26 June 1997

ER -

NEW PERSPECTIVES ON THE FRACTURE OF NICALON FIBERS

Abstract

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