JKSCE
KSCE JOURNAL OF CIVIL AND
ENVIRONMENTAL ENGINEERING RESEARCH
KSCE
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ISSN : 1015-6348 (Print)
ISSN : 2799-9629 (Online)
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Journal of the Korean Society of Civil Engineers
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KSCE J. Civ. Environ. Eng. Res.
Open Access, Bi-monthly
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2023-02
(v.43 n.1)
10.12652/Ksce.2023.43.1.0009
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References
1
AASHTO T 334-08 (2020). Standard method of test for estimating the cracking tendency of concrete, American Association of State Highway and Transportation Officials (AASHTO), Washington DC, USA.
2
AASHTO T 336-15 (2019). Standard method of test for coefficient of thermal expansion of hydraulic cement concrete, American Association of State Highway and Transportation Officials (AASHTO), Washington DC, USA.
3
ACI (2013). Concrete repair manual, 4th Edition, American Concrete Institute (ACI), Garmington Hills, Michigan, USA.
4
ACI 546.3R (2014). Guide to materials selection for concrete repair, ACI Committee 546, American Concrete Institute (ACI), Garmington Hills, Michigan, USA.
5
ASTM C1042 (1999). Standard test method for bond strength of latex systems used with concrete by slant shear (Withdrawn 2008), American Society of Testing Materials (ASTM), West Conshohocken, PA, USA.
6
ASTM C1404 (2003). Standard test method for bond strength of adhesive systems used with concrete as measured by direct tension (Withdrawn 2010), American Society of Testing Materials (ASTM), West Conshohocken, PA, USA.
7
ASTM C1581 (2018). Standard test method for determining age at cracking and induced tensile stress characteristics of mortar and concrete under restrained shrinkage, USA, American Society for Testing Materials (ASTM), West Conshohocken, PA.
8
ASTM C1583 (2020). Standard test method for tensile strength of concrete surfaces and the bond strength or tensile strength of concrete repair and overlay materials by direct tension (Pull-off Method), American Society of Testing Materials (ASTM), West Conshohocken, PA, USA.
9
ASTM C882 (2020). Standard test method for bond strength of epoxy-resin systems used with concrete by slant shear, American Society of Testing Materials (ASTM), West Conshohocken, PA, USA.
10
CSA A23.2-6B (2014). Method of test to determine adhesion by tensile load, Canadian Standard Association (CSA), Toronto, ON, Canada.
11
EN 12617-4 (2002). Products and systems for the protection and repair of concrete structures-Test methods - Part 4: Determination of shrinkage and expansion, European Committee for Standardization; European Standard (EN).
12
EN 13687-1 (2002). Products and systems for the protection and repair of concrete structures-Test methods - Determination of thermal compatibility - Part 1: Freez-thaw cycling with de-icing salt immersion, European Committee for Standardization; European Standard (EN).
13
EN 13687-2 (2002). Products and systems for the protection and repair of concrete structures-Test methods - Determination of thermal compatibility - Part 2: Thunder-shower cycling, European Committee for Standardization; European Standard (EN).
14
EN 13687-4 (2002). Products and systems for the protection and repair of concrete structures-Test methods - Determination of thermal compatibility - Part 4: Dry thermal cycling, European Committee for Standardization; European Standard (EN).
15
EN 1504 (2005). Products and systems for the protection and repair of concrete structures-defintions, requirements, quality control an evaluation of conformity, European Committee for Standardization; European Standard (EN).
16
EN 1542 (2005). Products and systems for the protection and repair of concrete structures-Test methods-Measurement of bond strength by pull-off, European Committee for Standardization; European Standard (EN).
17
EXCS 44 50 15 (2021). Cement concrete pavement construction, korea expressway corporation (KEC), Gimcheon, Kyungbuk, Republic of Korea (in Korean).
18
EXCS 44 99 30 (2021). Whole/partial section repair, Korea Expressway Corporation (KEC), Gimcheon, Kyungbuk (in Korean).
19
ICRI 210.3R (2022). Guide for using in-situ tensile pulloff tests to evaluate bond of concrete surface materials, International Concrete Repair Institute (ICRI), St. Paul, Minnesota, USA.
20
ICRI 320.2R (2018). Guide for selecting and specifying materials for repair of concrete surfaces, International Concrete Repair Institute (ICRI), St. Paul, Minnesota, USA.
21
Jeong, Y. S., Lee, I. K., Min, G. H., Kim, K. H. and Kim, W. S. (2023). “Removal area of deteriorated concretes for concrete repairs.” Journal of the Korea Concrete Institute, Vol. 35, No. 1 (in Korean).
22
KS F 2405 (2022). Standard test method for compressive strength of concrete, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
23
KS F 2408 (2021). Standard test method for flexural strength of concrete, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
24
KS F 2424 (2020). Standard test method for length change of mortar and concrete, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
25
KS F 2438 (2022). Standard test method for static modulus of elasticity and poisson’s ratio in compression of cylindrical concrete specimens, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
26
KS F 2456 (2018). Standard test method for resistance of concrete to rapid freezing and thawing, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
27
KS F 2476 (2019). Standard test method for polymer-modified cement mortar, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
28
KS F 2608 (2022). Standard test method for measuring of linear thermal expansion for building materials, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
29
KS F 2711 (2022). Standard test method for resistance of concrete to chloride ion penetration by electrical conductance, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
30
KS F 2762 (2021). Standard test method for the bond strength of concrete repair and overlay materials by pull-off method, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
31
KS F 4042 (2022). Polymer modified cement mortar for maintenance in concrete structure, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
32
KS F 4043 (2018). Epoxy resin martar for restoration in concrete structure, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
33
KS F 4716 (2022). Cement filling compound for surface preparation, Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA), Seoul, Korea (in Korean).
34
Min, G. H., Lee, I. K., Jeong, Y. S. and Kim, W. S. (2021). “Proposals for enhancing performance of repair of deteriorated concrete structures.” Journal of the Korea Concrete Institute, Vol. 33, No. 6, pp. 579-587 (in Korean).
