Damage accumulation and lifetime prediction of woven GFRP under constant tensile load test in hydrochloric acid solution

M. Kotani; Y. Yamamoto; Y. Sato; R. Sato; Hiroyuki Kawada

Damage accumulation and lifetime prediction of woven GFRP under constant tensile load test in hydrochloric acid solution

M. Kotani^*, Y. Yamamoto, Y. Sato, R. Sato, Hiroyuki Kawada

^*この研究の対応する著者

研究成果: Conference contribution

抄録

Constant tensile load tests of woven glass fiber reinforced plastics were conducted in air, in deionized water and in hydrochloric acid at 40°C. The delayed fracture occurred in both solutions but did not occur in air in the range of this research. The fracture time decreased with the increase in the applied stress and was shorter in hydrochloric acid than in deionized water. The resin adhesion on the glass fiber surface decreased with the increasing test time and the fracture surface of the glass fiber flattened with the decrease of the applied stress. These transitions in the fracture surfaces exhibit the strength degradation of the glass fiber and the fiber/matrix interfacial adhesion, i.e. the constituents of GFRP. The fracture time of the woven GFRP was predicted based on the assumption of the global load sharing (GLS).

本文言語	English
ホスト出版物のタイトル	ICCM International Conferences on Composite Materials
出版ステータス	Published - 2011
イベント	18th International Conference on Composites Materials, ICCM 2011 - Jeju 継続期間: 2011 8月 21 → 2011 8月 26

Other

Other	18th International Conference on Composites Materials, ICCM 2011
City	Jeju
Period	11/8/21 → 11/8/26

ASJC Scopus subject areas

工学（全般）
セラミックおよび複合材料

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title = "Damage accumulation and lifetime prediction of woven GFRP under constant tensile load test in hydrochloric acid solution",

abstract = "Constant tensile load tests of woven glass fiber reinforced plastics were conducted in air, in deionized water and in hydrochloric acid at 40°C. The delayed fracture occurred in both solutions but did not occur in air in the range of this research. The fracture time decreased with the increase in the applied stress and was shorter in hydrochloric acid than in deionized water. The resin adhesion on the glass fiber surface decreased with the increasing test time and the fracture surface of the glass fiber flattened with the decrease of the applied stress. These transitions in the fracture surfaces exhibit the strength degradation of the glass fiber and the fiber/matrix interfacial adhesion, i.e. the constituents of GFRP. The fracture time of the woven GFRP was predicted based on the assumption of the global load sharing (GLS).",

keywords = "Delayed fracture, Durability, GFRP, Hydrochloric acid, SCC, Water environment",

author = "M. Kotani and Y. Yamamoto and Y. Sato and R. Sato and Hiroyuki Kawada",

year = "2011",

language = "English",

booktitle = "ICCM International Conferences on Composite Materials",

note = "18th International Conference on Composites Materials, ICCM 2011 ; Conference date: 21-08-2011 Through 26-08-2011",

}

TY - GEN

T1 - Damage accumulation and lifetime prediction of woven GFRP under constant tensile load test in hydrochloric acid solution

AU - Kotani, M.

AU - Yamamoto, Y.

AU - Sato, Y.

AU - Sato, R.

AU - Kawada, Hiroyuki

PY - 2011

Y1 - 2011

N2 - Constant tensile load tests of woven glass fiber reinforced plastics were conducted in air, in deionized water and in hydrochloric acid at 40°C. The delayed fracture occurred in both solutions but did not occur in air in the range of this research. The fracture time decreased with the increase in the applied stress and was shorter in hydrochloric acid than in deionized water. The resin adhesion on the glass fiber surface decreased with the increasing test time and the fracture surface of the glass fiber flattened with the decrease of the applied stress. These transitions in the fracture surfaces exhibit the strength degradation of the glass fiber and the fiber/matrix interfacial adhesion, i.e. the constituents of GFRP. The fracture time of the woven GFRP was predicted based on the assumption of the global load sharing (GLS).

AB - Constant tensile load tests of woven glass fiber reinforced plastics were conducted in air, in deionized water and in hydrochloric acid at 40°C. The delayed fracture occurred in both solutions but did not occur in air in the range of this research. The fracture time decreased with the increase in the applied stress and was shorter in hydrochloric acid than in deionized water. The resin adhesion on the glass fiber surface decreased with the increasing test time and the fracture surface of the glass fiber flattened with the decrease of the applied stress. These transitions in the fracture surfaces exhibit the strength degradation of the glass fiber and the fiber/matrix interfacial adhesion, i.e. the constituents of GFRP. The fracture time of the woven GFRP was predicted based on the assumption of the global load sharing (GLS).

KW - Delayed fracture

KW - Durability

KW - GFRP

KW - Hydrochloric acid

KW - SCC

KW - Water environment

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M3 - Conference contribution

BT - ICCM International Conferences on Composite Materials

T2 - 18th International Conference on Composites Materials, ICCM 2011

Y2 - 21 August 2011 through 26 August 2011

ER -

Damage accumulation and lifetime prediction of woven GFRP under constant tensile load test in hydrochloric acid solution

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