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Journal of the Korean Society of Civil Engineers

Journal of the Korean Society of Civil Engineers

ISO Journal TitleKSCE J. Civ. Environ. Eng. Res.
  • Open Access, Bi-monthly

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  3. 2022-06 (v.42 n.3)
  4. 10.12652/Ksce.2022.42.3.0323
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References

1 
Chen D., Zhang B., Li X., Tu C., Yuan C., Li W., Zhou Z., Liang Z. (2018). "A stress measurement method for steel strands based on LC oscillation.", Advances in Materials Science and Engineering, Vol. 2018, pp. 1-8DOI
2 
Dang N. L., Huynh T. C., Kim J. T. (2019). "Local strand-breakage detection in multi-strand anchorage system using an impedance- based stress monitoring method-feasibility-study.", Sensors, Vol. 19, No. 5, pp. 1054DOI
3 
Griffiths D. J. (2019). "Introduction to electrodynamics", Bookshill (in Korean)Google Search
4 
Hiba A. J., Branko G. (2019). "Monitoring of prestressing forces in prestressed concrete structures-An overview.", Structural Control Health Monitoring, Vol. 26, No. 8, pp. 1-27DOI
5 
Instron (2012). "Instron 4485", Available at: https://www.instron.com/en/ (Accessed: November 19, 2021)URL
6 
Jeon K. Y., Kwon S. H., Kim K. D., Baek J. B., Kim J. K., Park S. H. (2019). "Monitoring method for pre-stressing temporary steel bar of FCM using EM sensor.", Journal of the Korean Society of Civil Engineers, KSCE, Vol. 67, No. 12, pp. 76-82 (in Korean)Google Search
7 
JKCORP (2021). "Outlet type digital thermostat", Available at: https://smartstore.naver.com/_jkcorporation (Accessed: November 19, 2021).URL
8 
KIKUSUI (2020). "PCR-500M", Available at: https://www.kikusui.co.jp/en/ (Accessed: November 19, 2021)URL
9 
Kim B. H., Park T. H. (2007). "Estimation of cable tension force using the frequency-based system identification method.", Journal of Sound and Vibration, Vol. 304, No. 3-5, pp. 660-676DOI
10 
Kim B. H., Joh C. B., Lee D. H. (2013). "A feasibility study for estimating prestressed stress on a steel wire Using permeability of magnetic flux.", Journal of the Earthquake Engineering Society of Korea, Vol. 17, No. 93, pp. 219-225DOI
11 
Kim D. H., Hong Y. K., Seo D. W., Jung S. K. (2021). "Safety diagnosis and evaluation technique for PSC bridges using acoustic emission technique.", Journal of the Korean Society for Nondestructive Testing, Vol. 41, No. 1, pp. 25-38URL
12 
Kim D. H., Hong Y. K., Seo D. W., Park T. K. (2019a). "Integrity evaluation technology of PSC bridge tendons using acoustic emission technique.", Journal of the Korean Society for Nondestructive Testing, Vol. 39, No. 1, pp. 37-44 (in Korean)URL
13 
Kim D. H., Hong Y. K., Seo D. W., Kim J. H. (2019b). "Fracture behavior of internal tendon in PSC structure using acoustic emission technique.", Journal of the Korean Society for Nondestructive Testing, Vol. 39, No. 6, pp. 362-368 (in Korean)URL
14 
Kim K. J., Park Y. S., Park S. W. (2020). "Development of artificial neural network model for estimation of cable tension of cable-Stayed bridge.", Journal of the Korea Academia-Industrial Cooperation Society, Vol. 21, No. 3, pp. 414-419 (in Korean)DOI
15 
Kim J. K., Park J. Y., Zhang A., Lee H. W., Park S. H. (2015a). "Prestressing loss management for PSC girder tendon based on EM sensing.", Journal of the Computational Structural Engineering Institute of Korea, Vol. 28, No. 4, pp. 369-374 (in Korean)DOI
16 
Kim S. T., Park Y. H., Park S. Y., Cho K. H., Cho J. R. (2015b). "A sensor-type PC strand with an embedded FBG sensor for monitoring prestress forces.", Sensors, Vol. 15, No. 1, pp. 1060-1070DOI
17 
Kim H. W., Kim J. M., Choi S. Y., Park S. Y., Lee H. W. (2015c). "Long term monitoring of prestressing tension force in post-tension UHPC bridge using fiver optical FBG sensor.", Journal of the Computational Structural Engineering Institute of Korea, Vol. 28, No. 6, pp. 669-706 (in Korean)DOI
18 
KONGSUNG (2021). "W-80-HOT-JET", Available at: http://www.kongsung.net/ (Accessed: November 19, 2021)URL
19 
Li X., Zhang B., Yuan C., Tu C., Chen D., Chen Z., Li Y. (2018). "An electromagnetic oscillation method for stress measurement of steel strands.", Measurement, Vol. 125, pp. 330-335DOI
20 
Na W. S., Baek J. D. (2018). "A review of the piezoelectric electromechanical impedance based structural health monitoring technique for engineering structures.", Sensors, Vol. 18, No. 5, pp. 1307DOI
21 
National Instruments (2012). "NI9239", Available at: https://www.ni.com/ko-kr.html (Accessed: November 19, 2021)URL
22 
Nguyen D. H., Kim B. H. (2020). "Experimental relationship between electrical impedance of a steel wire and applied stress, temperature, and excited frequency.", Journal of the Korean Society of Civil Engineers, KSCE, Vol. 40, No. 2, pp. 183-189 (in Korean)DOI
23 
Park J. H., Hong D. S., Kim J. T., Na W. B., Cho H. M. (2010). "A study on applicability of wireless impedance sensor nodes technique for tensile force monitoring of structural cables.", Joural of Korean Society of Steel Construction, Vol. 22, No. 1, pp. 21-31 (in Korean)URL
24 
Park J. H., Kim J. K., Eum K. Y., Park S. H. (2019). "Low-voltage EM (Elasto-Magnetic) sensing technique for tensile force management of PSC (Prestressed Concrete) internal tendon.", Journal of the Computational Structural Engineering Institute of Korea, Vol. 32, No. 2, pp. 87-92 (in Korean)DOI
25 
Ryu J. Y., Huynh T. C., Kim J. T. (2019). "Tension force estimation in axially loaded members using wearable piezoelectric interface technique.", Sensors, Vol. 19, No. 1, pp. 47DOI
26 
Shen S., Wang Y., Ma S. L., Huang D., Wu Z. H., Guo X. (2018). "Evaluation of prestress loss distribution during pre- tensioning and post-tensioning using long-gauge fiber bragg grating sensors.", Sensors, Vol. 18, No. 12, pp. 4106DOI
27 
Zhang B., Tu C., Li X., Cui H., Zheng G. (2019). "Length effect on the stress detection of prestressed steel strands based on electromagnetic oscillation method.", Sensors, Vol. 19, No. 12, pp. 2782DOI
28 
Zhu X., Scalea F. L. (2016). "Sensitivity to axial stress of electro mechanical impedance measurements.", Experimental Mechanics, Vol. 56, No. 9, pp. 1599-1610DOI