Strengthening of Earthen Material with Some Binding Materials for Traditional and Contemporary Adobe Buildings

Erol Gürdal; Mustafa Erkan Karagüler

doi:10.26650/JTADP.23.006

Research Article

Year 2023, Volume: 1 Issue: 2, 136 - 144, 05.01.2024

Erol Gürdal Mustafa Erkan Karagüler

https://doi.org/10.26650/JTADP.23.006

Abstract

References

Schwalen, H. C. (1935). Effect of Soil Texture upon the Physical Characteristics of Adobe Bricks. University of Arizona Tech Bull, 58, 275-294. google scholar
Bell, F. G. (1976). The Influence of the Mineral Content of Clays on Their Stabilization by Cement. Bulletin of the Association of Engineering Geologists, 13(3), 267-278. google scholar
Lunt, M. G. (1980). Stabilised Soil Blocks for Building. Overseas Building Notes. google scholar
Kerpiç semineri, İmar İskan Bakanlığı. (1964). google scholar
Papadakis, M., & Venuat, M. (1970). Industrie de la Chaux, du Ciment et du Plâtre. Dunod. google scholar
Penton, F. C. (1941). The Use of Earth as a Building Material. Kansas State College Bulletin, 41, 5-34. google scholar

Strengthening of Earthen Material with Some Binding Materials for Traditional and Contemporary Adobe Buildings

Year 2023, Volume: 1 Issue: 2, 136 - 144, 05.01.2024

Erol Gürdal Mustafa Erkan Karagüler

https://doi.org/10.26650/JTADP.23.006

Abstract

This study investigates the effects on adobe soils of adding varying amounts of gypsum, gypsum-lime, and lime to clay soils of different characteristics for replacing traditional adobe. This research focuses on stabilizing soil to enhance adobe’s structural integrity, making it a feasible option for modern constructions and renovations. The study investigates four types of clay soils with varying mineralogical compositions to produce adobe with different qualities. Results indicate that the introduction of gypsum contributes to reduced unit volume weight, increased void ratio, decreased thermal conductivity, and enhanced compressive strength. The research assesses the impact of water on adobe, including capillary rise and resistance to sprinkling. Moreover, the study explores the potential of gypsum-adobe to address the increasing demand for affordable and sustainable housing, especially in rural areas, contributing to energy conservation and cost-effectiveness. This study presents the advantages of utilizing adobe produced by this method in rural regions, in comparison to the building materials it may substitute.

Keywords

Adobe, earthen material, strengthening, binding materials, gypsum and lime

References

Schwalen, H. C. (1935). Effect of Soil Texture upon the Physical Characteristics of Adobe Bricks. University of Arizona Tech Bull, 58, 275-294. google scholar
Bell, F. G. (1976). The Influence of the Mineral Content of Clays on Their Stabilization by Cement. Bulletin of the Association of Engineering Geologists, 13(3), 267-278. google scholar
Lunt, M. G. (1980). Stabilised Soil Blocks for Building. Overseas Building Notes. google scholar
Kerpiç semineri, İmar İskan Bakanlığı. (1964). google scholar
Papadakis, M., & Venuat, M. (1970). Industrie de la Chaux, du Ciment et du Plâtre. Dunod. google scholar
Penton, F. C. (1941). The Use of Earth as a Building Material. Kansas State College Bulletin, 41, 5-34. google scholar

There are 6 citations in total.

Details

Primary Language	English
Subjects	Architecture (Other)
Journal Section	Research Articles
Authors	Erol Gürdal This is me 0000-0002-2445-2816 Mustafa Erkan Karagüler 0000-0003-4608-0379
Publication Date	January 5, 2024
Submission Date	November 29, 2023
Acceptance Date	December 26, 2023
Published in Issue	Year 2023 Volume: 1 Issue: 2

Cite

APA	Gürdal, E., & Karagüler, M. E. (2024). Strengthening of Earthen Material with Some Binding Materials for Traditional and Contemporary Adobe Buildings. Journal of Technology in Architecture, Design and Planning, 1(2), 136-144. https://doi.org/10.26650/JTADP.23.006
AMA	Gürdal E, Karagüler ME. Strengthening of Earthen Material with Some Binding Materials for Traditional and Contemporary Adobe Buildings. JTADP. January 2024;1(2):136-144. doi:10.26650/JTADP.23.006
Chicago	Gürdal, Erol, and Mustafa Erkan Karagüler. “Strengthening of Earthen Material With Some Binding Materials for Traditional and Contemporary Adobe Buildings”. Journal of Technology in Architecture, Design and Planning 1, no. 2 (January 2024): 136-44. https://doi.org/10.26650/JTADP.23.006.
EndNote	Gürdal E, Karagüler ME (January 1, 2024) Strengthening of Earthen Material with Some Binding Materials for Traditional and Contemporary Adobe Buildings. Journal of Technology in Architecture, Design and Planning 1 2 136–144.
IEEE	E. Gürdal and M. E. Karagüler, “Strengthening of Earthen Material with Some Binding Materials for Traditional and Contemporary Adobe Buildings”, JTADP, vol. 1, no. 2, pp. 136–144, 2024, doi: 10.26650/JTADP.23.006.
ISNAD	Gürdal, Erol - Karagüler, Mustafa Erkan. “Strengthening of Earthen Material With Some Binding Materials for Traditional and Contemporary Adobe Buildings”. Journal of Technology in Architecture, Design and Planning 1/2 (January 2024), 136-144. https://doi.org/10.26650/JTADP.23.006.
JAMA	Gürdal E, Karagüler ME. Strengthening of Earthen Material with Some Binding Materials for Traditional and Contemporary Adobe Buildings. JTADP. 2024;1:136–144.
MLA	Gürdal, Erol and Mustafa Erkan Karagüler. “Strengthening of Earthen Material With Some Binding Materials for Traditional and Contemporary Adobe Buildings”. Journal of Technology in Architecture, Design and Planning, vol. 1, no. 2, 2024, pp. 136-44, doi:10.26650/JTADP.23.006.
Vancouver	Gürdal E, Karagüler ME. Strengthening of Earthen Material with Some Binding Materials for Traditional and Contemporary Adobe Buildings. JTADP. 2024;1(2):136-44.

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