Figures index

From

Building Performance Simulation for Thermal Insulate Materials: Experimental Study

Bénédicte Touogam Touolak

American Journal of Civil Engineering and Architecture. 2021, 9(4), 121-133 doi:10.12691/ajcea-9-4-1
  • Figure 1. Overview of rice hulls to incorporate into fired clay brick
  • Figure 2. Change in volume of water according to the percentage of rice husks
  • Figure 3. Change in volume of water based on the mass of material
  • Figure 4. Change in volume of water based on the mass of rice husks
  • Figure 5. Rice Balls Samples from Badjengo (photo above) and Kalge (photo below)
  • Figure 6. Respective particle size cutoff Rice Balls 1000-500µm (photo above left), from 500 to 315µm (photo above right), of 315-125µm (photo below left), and finally the mixture over rice balls clay (photo below right)
  • Figure 7. Cylindrical mold (photo above) and mold reliability (photo below)
  • Figure 8. Respective specimens of Badjengo (picture above) and Kalge (photo below) in curing period
  • Figure 9. Specimens of bricks in an oven set at a temperature of 105°C
  • Figure 10. Influence of adjuvant and firing temperature on porometric properties of fired clay bricks
  • Figure 11. Influence of adjuvant and firing temperature on porometric properties of fired clay bricks
  • Figure 12. Influence of adjuvant and firing temperature on porometric properties of fired clay bricks
  • Figure 13. Influence of adjuvant and firing temperature on porometric properties of fired clay bricks
  • Figure 14. Influence of adjuvant and firing temperature on porometric properties of fired clay bricks
  • Figure 15. Influence of adjuvant and firing temperature on porometric properties of fired clay bricks