Thermal Conductivity of Compressed Stabilized Earth Brick (CSEB) Different Rate Percentage of Binder Use

Darnarti Karsono, Abito Bamban Yuuwono, Kukuh Kurniawan DS

Abstract


Abstract. The level of conductivity of building skin material is one of the factors that influence the thermal conditions of a space, compressed stabilized earth bricks are proven to be more economical, environmentally friendly, stronger and have better ability to withstand the rate of heat propagation compared to ordinary firebrick , the number of percentages of the use of binder (binder) on bricks without burning will affect the level of thermal conductivity, in this article we test bricks without fires with the level of the number of percentages of use of different binder materials, bricks without fires with a smaller percentage of binder material / a little will have a slower rate of heat conductivity (better) and the higher the percentage of the use of binder material, the level of heat conductivity will be faster (not Good).Keywords: conductivity, thermal, brick without burning, Binder

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References


A.Y.B. Anifowose. 2002. Stabilisation of lateritic soils as a raw matrial for building blocks. Buletin of Engineering Geology and the Environment, 58: p. 1511-157.

D.E. Purnama, A.M. Nugroho2, B. Yatnawijaya S. 2016. Identifikasi Pengaruh Material Bangunan Terhadap Kenyamanan Termal (Studi kasus bangunan dengan material bambu dan bata merah di Mojokerto). Jurnal Mahasiswa Jurusan Arsitektur, 4: p. 1

Egan, David, Concepts In Thermal Confort. Prentice-Hall Inc, Enlewood Cliffs. New Jersey. 1975.

Keputusan Menteri Kesehatan Republik Indonesia. 2002. Persyaratan KesehatanLingkungan Kerja Perkantoran dan Industri. Jakarta: MENKES

Lippsmeier, Georg. 1980 Buidling in the Tropics. Callwey Verlag Muchen.

P.J. Walker. 1995. Strenght, durability and shrinkage characteristics of cement stabilised soil block. Cement and Concrete Composite, 17 (4):p.301-310

P.J. Walker and T. Stace. 1997. Properties of some cement stabilised compressed earth bloks and mortar. Material and Stucture/Materiaux et Construction, 30 (9): p. 545-551

Ruzaimah binti Razman, Abd Halid bin Abdullah, Mohammad Soffi bin Md Noh, Abdul Zaki bin Abd Wahid. 2010. Thermal and Structural Properties of Compressed Earth Brick (Laterite Soil). Proceedings of the International Postgraduate Conference on Engineering (IPCE 2010).

Standar Nasional Indonesia. 2001. Tata Cara Perancangan Sistem Ventilasi dan Pengondisian Udara pada Bangunan Gedung. Jakarta: SNI




DOI: https://doi.org/10.26877/ijosbie.v1i1.5490

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