Compressive strength testing of compressed earth blocks

Construction and Building Materials - Tập 21 Số 2 - Trang 303-309 - 2007
Jean‐Claude Morel1, Abalo P’Kla1, Pete Walker2
1Département Génie Civil et Bâtiment, URA 1652 CNRS, Ecole Nationale des Travaux Publics de l’Etat, Rue Maurice Audin, 69518 Vaulx en Velin cedex, France.
2Department of Architecture & Civil Engineering, University of Bath, Bath, BA2 7AY, UK

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Tài liệu tham khảo

Houben, 1994

Guillaud, 1995

Heathcote K. An investigation into the erosion of earth walls, PhD Thesis, University of Technology, Sydney, Australia; 2002.

Walker, 1996, Specifications for stabilised pressed earth blocks, Masonry Int, 10, 1

Lunt, 1980, Stabilised soil blocks for building

Olivier, 1986, Le matériau terre: Essai de compactage statique pour la fabrication de briques de terres compressées, Bull Liaison Labo P et Ch, 146, 37

Heathcote, 1991, Compressive strength of cement stabilised pressed earth blocks, Build Res Inf, 19, 101, 10.1080/09613219108727106

Venkatarama Reddy, 1995, Influence of soil composition on strength and durability of soil-cement blocks, Indian Concrete J, 69

Olivier, 1997, Test method for strength test on blocks of compressed earth, Mater Struct, 30, 515, 10.1007/BF02486394

Walker, 1995, Strength, durability and shrinkage characteristics of cement stabilised soil blocks, Cement Concrete Comp, 17, 301, 10.1016/0958-9465(95)00019-9

Walker P. Characteristics of pressed earth blocks in compression. In: Proceedings of the 11th international brick/block masonry conference, Shanghai, China, 14–16 October; 1997. p. 1–10.

Pkla A. Caractérisation en compression simple des blocs de terre comprimées (btc): application aux maçonneries btc-mortier de terre, PhD, INSA, Lyon; 2002.

Venkatarama Reddy, 2003, Characteristics of stabilised mud blocks using ash-modified soils, Indian Concrete J, 2, 903

New Zealand Standard 4298: 1998. Materials and workmanship for earth buildings. Standards New Zealand.

Standards Australia Handbook 194. The Australian earth building handbook. Standards Australia, Sydney, Australia; 2002.

Centre for the Development of Enterprise. Compressed earth blocks testing procedures, CDE, Brussels, Belgium; 2000.

Standards Australia Standard 2733. Concrete masonry units, Standards Australia, Sydney, Australia; 1984.

British Standard 5628-1: 1992. Code of practice for use of masonry – Part 1: Structural use of unreinforced masonry. BSI.

British Standard prEN 1996-1-1:2003. Eurocode 6. Design of masonry structures. BSI.

Krefeld WJ. Effect of shape of specimen on the apparent compressive strength of brick masonry. In: Proceedings of the American society of materials, Philadelphia, USA; 1938. p. 363–9.

Middleton GF. Earth-wall construction, Bulletin 5, CSIRO Division of building, construction and engineering. 4th ed. Sydney; 1992 [revised by Schneider LM].

Heathcote, 1992, Aspect ratio correction factors for soilcrete blocks, vol. CE34, 4

Olivier M. Le matériau terre, compactage, comportement, application aux structures en blocs de terre, PhD, INSA, Lyon; 1994.

Hakimi, 1996, Rapport: Résultats d’essais de résistance mécaniques suréchantillons de terre comprimée, Mater Struct, 29, 600, 10.1007/BF02485967

Hendry, 1981

Venkatarama Reddy BV, Jagadish KS. Field evaluation of pressed soil-cement blocks, in In: Proceedings of the 4th international seminar on structural masonry for developing countries, Madras; 1990. p. 168–75.

Mesbah, 1999, Comportement des sols fins argileux pendant un essai de compactage statique: détermination des paramètres pertinents, Mater Struct, 32, 687, 10.1007/BF02481707

Walker P. Strength and durability testing of earth blocks. In: Proceedings of the 6th international seminar on structural masonry for developing countries, Bangalore, India; 2000. p. 111–8.

Morel, 2002, A model to measure compressive strength of compressed earth blocks with the three point bending test, Constr Build Mater, 16, 303, 10.1016/S0950-0618(02)00023-5

Morel, 2003, Interprétation en compression ou traction de l’essai de flexion en trois points, Rev Fr Génie Civil, 7, 221, 10.3166/rfgc.7.221-237