Bond Durability of Carbon-Microfiber-Reinforced Alkali-Activated High-Temperature Cement Adhering to Carbon Steel

Tatiana Pyatina; Toshifumi Sugama

文献导航

搜索文章

搜索思路

钛学术文献服务平台 \
学术期刊 \
综合期刊 \
其它期刊 \
工程（英文）（1947-3931）期刊 \
Bond Durability of Carbon-Microfiber-Reinforced Alkali-Activated High-Temperature Cement Adhering to Carbon Steel

Bond Durability of Carbon-Microfiber-Reinforced Alkali-Activated High-Temperature Cement Adhering to Carbon Steel

作者：

Tatiana Pyatina Toshifumi Sugama

基本信息来源于合作网站，原文需代理用户跳转至来源网站获取

Carbon

MICROFIBERS

Calcium

ALUMINATE

CEMENT

FLY

Ash

Thermal

Shock

摘要：

The study aims at evaluating the bond durability of a carbon microfiber (CMF)-reinforced alkali-activating calcium aluminate cement (CAC)/fly ash F (FAF) blend cementitious material adhering to carbon steel (CS) under stresses induced by a 350℃ heat-25℃ water cooling cycle. This cementitious material/CS joint sample was originally prepared in an autoclave at 300℃ under a pressure of 8.3 MPa. For comparison, two reference geothermal well cements, Class G modified with silica (G) and calciumaluminum phosphate (CaP), were employed as well reinforced with CMF. In the CAC/FAF blending cement systems, the CAC-derived cementitious reaction products preferentially adhered to CS surfaces, rather than that of FAF-related reaction products. CMF played a pivotal role in creating tough interfacial bond structure of cement layer adhering to CS. The bond toughness also was supported by the crystalline cementitious reaction products including sodalite, brownmillerite, and hedenbergite as major phases, and aragonite, boehmite, and garronite as minor ones. The brownmillerite as an interfacial reaction product between cement and CS promoted the chemical bonding of the cement to CS, while the other phases served in providing the attractive bonding of the cement to CS. The post-stress-test joint samples revealed the formation of additional brown-millerite, aragonite, and garronite, in particular brownmillerite as the major one. The combination of chemical bonding and self-advancing adherence behavior of the cement was essential for creating a better interfacial bond structure. A similar interfacial bond structure was observed with CaP. The crystalline phase composition of the autoclaved cement revealed apatite, zeolite, and ferrowyllieite as major reaction products, and aragonite and al-katoite as the minor ones. Ferrowyllieite was identified as cement/CS interfacial reaction product contributing to the chemical bond of cement, while the other phases aided in providing the attractive bond of cement. After a stress test, two pha

内容分析

关键词云

关键词热度

相关文献

推荐文献

根据相关规定，获取原文需跳转至原文服务方进行注册认证身份信息

完成下面三个步骤操作后即可获取文献，阅读后请点击下方页面【继续获取】按钮

钛学术文献服务平台

学术出版新技术应用与公共服务实验室出品

原文合作方

获取文献流程

1.访问原文合作方请等待几秒系统会自动跳转至登录页，首次访问请先注册账号，填写基本信息后，点击【注册】

2.注册后进行实名认证，实名认证成功后点击【返回】

3.检查邮箱地址是否正确，若错误或未填写请填写正确邮箱地址，点击【确认支付】完成获取，文献将在1小时内发送至您的邮箱

*若已注册过原文合作方账号的用户，可跳过上述操作，直接登录后获取原文即可

点击【获取原文】按钮，跳转至合作网站。

首次获取需要在合作网站进行注册。

注册并实名认证，认证后点击【返回】按钮。

确认邮箱信息，点击【确认支付】，订单将在一小时内发送至您的邮箱。

* 若已经注册过合作网站账号，请忽略第二、三步，直接登录即可。

期刊分类
期刊（年）
期刊（期）
期刊推荐

其它

工程（英文）（1947-3931）2021 工程（英文）（1947-3931）2020 工程（英文）（1947-3931）2019 工程（英文）（1947-3931）2018 工程（英文）（1947-3931）2017 工程（英文）（1947-3931）2015 工程（英文）（1947-3931）2014

按字母查找期刊：

A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
其他

联系合作广告推广: shenyukuan@paperpass.com

篇名	Bond Durability of Carbon-Microfiber-Reinforced Alkali-Activated High-Temperature Cement Adhering to Carbon Steel
来源期刊	工程(英文)(1947-3931)	学科	医学
关键词	Carbon MICROFIBERS Calcium ALUMINATE CEMENT FLY Ash Thermal Shock
年，卷（期）	2017,（2）	所属期刊栏目
研究方向		页码范围	142-170
页数	29页	分类号	R73
字数		语种
DOI