Tests on bond strength between grout and tendon of soil anchors

FU Wen-guang; ZHUO Zhi-fei; REN Xiao-guang

doi:10.11779/CJGE201807017

Volume 40 Issue 7

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Chinese Journal of Geotechnical Engineering > 2018 > 40(7): 1300-1308. > DOI: 10.11779/CJGE201807017

FU Wen-guang, ZHUO Zhi-fei, REN Xiao-guang. Tests on bond strength between grout and tendon of soil anchors[J]. Chinese Journal of Geotechnical Engineering, 2018, 40(7): 1300-1308. DOI: 10.11779/CJGE201807017

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Tests on bond strength between grout and tendon of soil anchors

1. Shenzhen Gongkan Geotechnical Group Co., Ltd., Shenzhen 518054;
2. China Jingye Engineering Co., Ltd., Beijing 100088, China

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Received Date: April 23, 2017
Published Date: July 24, 2018

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The research results about the bond strength between anchor tendon and grout are few. The test results of 64 soil anchors in 3 projects show that: (1) The dispersion degree of the ultimate bond capacity between grout and tendon is tremendous, and its solitary-low phenomenon is widespread. The dispersion degree has nothing to do with the bond length and is related with the quantity of tendons and tension technique, so that of the calculated bond strength of grout-tendon is tremendous. (2) The bond strength of grout-tendon is not related with the in-situ conditions, grout techniques and quantity of tendons, but is able to be improved when drilling with casing pipes and improving the cleanliness of the hole. (3) The relationship between the grout-tendon bond strength and the grout design strength cannot be verified, neither is the effect of actual strength of grout and tendon sharp on the bond strength of grout-tendon. (4) The exerting degree of bond strength slightly decreases with the increase of bond length. (5) The characteristic values of bond strength of grout-tendon are 0.744~0.664 MPa under the bond length of 3~6 m. (6) The bond length of soil anchors should be more than 8 m. (7) The number of tendons in the single anchor should not be 2.
- grout,
- anchor tendon,
- bond strength,
- bond length,
- ultimate bond capacity,
- grout strength,
- tendon sharp,
- characteristic value

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[1]	付文光. 岩土工程规范杂议[M]. 北京: 中国建筑工业出版社, 2016: 123-125. (FU Wen-guang.Discussion about Geotechnical Standards[M]. Beijng: China Architecture & Building Press, 2016: 123-125. (in Chinese))
[2]	CECS22—2005 岩土锚杆(索)技术规程[S]. 2005. (CECS22—2005 Technical specification for ground anchors[S]. 2005. (in Chinese))
[3]	GB 50330—2013 建筑边坡工程技术规范[S]. 2013. (GB 50330—2013 Technical code for building slope engineering[S]. 2013. (in Chinese))
[4]	GB/T 5224—2014 预应力混凝土用钢绞线[S]. 2014. (GB/T 5224—2014 Steel strand for prestressed concrete[S]. 2014. (in Chinese))
[5]	BS 8081:1989. British standard code of practice for ground anchoragesS 8081:1989. British standard code of practice for ground anchorages[S]. BSI, 1989.
[6]	付文光, 任晓光. 拉力分散型锚索的研究与应用研究报告[R]. 北京: 中国京冶工程技术有限公司, 2016. (FU Wen-guang, REN Xiao-guang.Research report about research and application of dispersed tensile anchor[R]. Beijing: China JingYe Engineering Co., Ltd, 2016. (in Chinese))
[7]	JGJ/T 282—2012. 高压喷射扩大头锚杆技术规程GJ/T 282—2012. 高压喷射扩大头锚杆技术规程[S]. 2012. (JGJ/T 282—2012. Technical specification for underreamed anchor by jet groutingGJ/T 282—2012. Technical specification for underreamed anchor by jet grouting[S]. 2012. (in Chinese))
[8]	GB50021—2001(2009年版). 岩土工程勘察规范[S]. 2009.(GB50010—2001(2009 edition). Code for investigation of geotechnical engineering[S]. 2009. (in Chinese))

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