Potential of Sustainable Timber Modular Houses in Southern Highland, Tanzania: The Structural Response of Timber Modules Under Wind Load
Traditional construction of timber houses in Tanzania has been prevalent for years; however, inhabiting these structures has been a challenge due to the instability of the buildings under various loadings. This instability, despite its lightweight, is mainly controlled by mechanical joints within ti...
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MDPI AG
2025-04-01
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| author | Daudi Salezi Augustino |
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| description | Traditional construction of timber houses in Tanzania has been prevalent for years; however, inhabiting these structures has been a challenge due to the instability of the buildings under various loadings. This instability, despite its lightweight, is mainly controlled by mechanical joints within timber members. Parametric Python scripts were developed in Abaqus (version 6.13) to have a reliable joint between timber volume modules and assess their response when subjected to wind forces. Two timber volume modules, each with a height of 3.0 m, were subjected to a horizontal displacement of 10 mm. Results show that the screwed fasteners between the modules result in high shear resistance due to the embedded fastener’s threads in timber members increasing the rope effect. Additionally, with weak fastener stiffness, the openings in the longitudinal wall had no effect on resisting shear compared to strong joints between modules. Longitudinal walls with doors and window openings showed a decrease in shear force to 21.95 kN, which is 44% less than the 39 kN of walls without openings. In addition, for a single door in the wall, the shear force decreased to 17.9%, indicating that major shear forces in the wall are affected by the window opening due to its large size and proximity to the point of load application. Furthermore, the stresses were concentrated in the corners of the openings, subjecting the structure to failure during its in-service life and demanding the use of cross-diagonal timber members between the corners to redistribute corner stresses. It is recommended that these types of houses be adopted due to less slip deformation (less than 10 mm) caused by wind speed of 24 km/h. |
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| spelling | doaj-art-2578a8ada39b4487b4870d74d30d1bb22025-08-20T01:50:45ZengMDPI AGBuildings2075-53092025-04-01159145910.3390/buildings15091459Potential of Sustainable Timber Modular Houses in Southern Highland, Tanzania: The Structural Response of Timber Modules Under Wind LoadDaudi Salezi Augustino0Department of Structural and Construction Engineering, University of Dar es Salaam, Dar es Salaam P.O. Box 35131, TanzaniaTraditional construction of timber houses in Tanzania has been prevalent for years; however, inhabiting these structures has been a challenge due to the instability of the buildings under various loadings. This instability, despite its lightweight, is mainly controlled by mechanical joints within timber members. Parametric Python scripts were developed in Abaqus (version 6.13) to have a reliable joint between timber volume modules and assess their response when subjected to wind forces. Two timber volume modules, each with a height of 3.0 m, were subjected to a horizontal displacement of 10 mm. Results show that the screwed fasteners between the modules result in high shear resistance due to the embedded fastener’s threads in timber members increasing the rope effect. Additionally, with weak fastener stiffness, the openings in the longitudinal wall had no effect on resisting shear compared to strong joints between modules. Longitudinal walls with doors and window openings showed a decrease in shear force to 21.95 kN, which is 44% less than the 39 kN of walls without openings. In addition, for a single door in the wall, the shear force decreased to 17.9%, indicating that major shear forces in the wall are affected by the window opening due to its large size and proximity to the point of load application. Furthermore, the stresses were concentrated in the corners of the openings, subjecting the structure to failure during its in-service life and demanding the use of cross-diagonal timber members between the corners to redistribute corner stresses. It is recommended that these types of houses be adopted due to less slip deformation (less than 10 mm) caused by wind speed of 24 km/h.https://www.mdpi.com/2075-5309/15/9/1459timber volume modulesdeformationslip modulusshear stressfastener |
| spellingShingle | Daudi Salezi Augustino Potential of Sustainable Timber Modular Houses in Southern Highland, Tanzania: The Structural Response of Timber Modules Under Wind Load Buildings timber volume modules deformation slip modulus shear stress fastener |
| title | Potential of Sustainable Timber Modular Houses in Southern Highland, Tanzania: The Structural Response of Timber Modules Under Wind Load |
| title_full | Potential of Sustainable Timber Modular Houses in Southern Highland, Tanzania: The Structural Response of Timber Modules Under Wind Load |
| title_fullStr | Potential of Sustainable Timber Modular Houses in Southern Highland, Tanzania: The Structural Response of Timber Modules Under Wind Load |
| title_full_unstemmed | Potential of Sustainable Timber Modular Houses in Southern Highland, Tanzania: The Structural Response of Timber Modules Under Wind Load |
| title_short | Potential of Sustainable Timber Modular Houses in Southern Highland, Tanzania: The Structural Response of Timber Modules Under Wind Load |
| title_sort | potential of sustainable timber modular houses in southern highland tanzania the structural response of timber modules under wind load |
| topic | timber volume modules deformation slip modulus shear stress fastener |
| url | https://www.mdpi.com/2075-5309/15/9/1459 |
| work_keys_str_mv | AT daudisaleziaugustino potentialofsustainabletimbermodularhousesinsouthernhighlandtanzaniathestructuralresponseoftimbermodulesunderwindload |