Elastic modulus of normal- and high-strength concrete in Hong Kong

HKIE Transactions Hong Kong Institution of Engineers

Volumn 8, Issue 2, 2001, Pages 10-15

  Kwan, A K H ^a   Zheng, W ^a   Lee, P K K ^a  

^a UNIVERSITY OF HONG KONG   (Hong Kong)

Author keywords

Concrete; Elastic Modulus; High Strength Concrete

Indexed keywords

CODES (STANDARDS); COMPRESSIVE STRENGTH; ELASTIC MODULI; MATHEMATICAL MODELS; RELIABILITY; STATISTICAL METHODS;

HIGH STRENGTH CONCRETE; NORMAL STRENGTH CONCRETE;

CONCRETES;

EID: 0035413827     PISSN: 1023697X     EISSN: None     Source Type: Journal    
DOI: 10.1080/1023697X.2001.10667842     Document Type: Article

References (12)

1. British Standards Institution, “Method for determination of static modulus of elasticity in compression”, British Standard 1881:Testing Concrete (BS 1881:Part 121:1983).
2. British Standards Institution, “section 7:Elastic deformation, creep, drying shrinkage and thermal strains of concrete”, British Standard 8110:Structural Use of Concrete (BS 8110:Part 2:1985), pp.7/1–7/S.
3. Neville, A.M., “Chapter 9:Elasticity, shrinkage and creep”, Properties of Concrete (4th Edition), Addison wesley Longman Limited, Essex, England, 1995, pp.412–481.
4. European Committee for Standardization, Technical Committee 250, Sub-Committee 2, “Eurocode 2:Design of concrete structures, Part 1–1:General rules and rules for buildings (ENV 1992–1–1)”, Concrete Structures Euro-design Handbook, Ernst & Sohn Verlag für Architektur und Technishe Wissenschaften GmbH, 1992, pp.599–729.
5. Comité Euro-International Du Béton and Fédération International de la Précontrainte, “Section 2:Material properties”, CEB-FIP Model Code 1990, Thomas Telford, 1993, pp.33–51.
6. ACI Committee 318, “Building code requirements for reinforced concrete (ACI 318M–95) and commentary (ACl 318RM-95)”, ACI Manual of Concrete Practice Part 3, American Concrete Institute, 1999, pp.77–86.
7. ACI Committee 363, “State-of-the-art report on high-strength concrete (ACI 363R–92l)”, ACI Manual of Concrete Practice Part 1, American Concrete Institute, 1999, pp.22–28.
8. Ministry of Construction, P.R. China, Concrete Structure Design Code (GBJ 10–89), China Construction industry Press, Beijing, China, 1992.
9. Buildings and Lands Department, Code of Practice for the Structural Use of Concrete - 1987, The Government of Hong Kong, 1987.
10. Highways Department, Structures Design Manual for Highways and Railways, The Government of Hong Kong, 1993.
11. Lee, P.K.K., Kwan, A.K.H. and Zheng. W., “Tensile strength and elastic modulus of typical concrete made in Hong Kong”, Transactions, Hong Kong Institution of Engineers, Vo1.7, No.2, 2000, pp.35–40.
12. Wong, K.Y. and Kwan, A.K.H., “Some mechanical properties of high-strength concrete in Hong Kong”, Transactions, Hong Kong institution of Engineers, Vol.7, No.3, 2000, pp.13–18.