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Adam G, Mamadou BN, Oumar D, Harouna MB, Salif G (2021). Optimization of the Mechanical Formulation of Typha Concrete. International Journal of Innovative Technology and Exploring Engineering 9(3):2278-3075.

Ahmadou D, Macodou T, Mamadou BN, Oumar D, Harouna MB, Salif G (2020). Improving the Stability of the Inflatable Soil of Diamniadio by Using Typha Australis in Order to Value It in Partitioning Wall. Journal of Building Construction and Planning Research 8(4). 

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Azibert OA, Abdallah DM, Ali A and Salif G (2021). Mechanical and Water Characterization of a Light Concrete Based on Typha Australis. Asian Journal of Physical and Chemical Sciences 9(2):36-43.
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Azibert OA, Ahmat MS, Malloum S, Djibril S, Gilbert M, Salif G (2016). Improving energy efficiency of buildings by using a light concrete based on Typha australis [2016 3rd International conference on renewable energies for developing countries]. 

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Diaw AS, Sow D, Ndiaye MB, Azibert OA, Wade M, Gaye S (2016). Valorization of Typha australis by its integation in building construction materials. International Journal of Emerging Technology and Advanced Engineering 6(1):34-37.

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Marthe TD, Salif G, Ababacar T, Dorothé A (2011). Determination of the thermo-physical and mechanical properties of typha australis. Applied energetics laboratory, DAKAR Polytechnic Higher School, Senegal pp. 1-6.