Development of thermal insulating bricks utilizing sulquiano red clay and carbonated rice straw / April Joy H. Basig
Material type:
TextPublication details: City of Batac : MMSU, 2024Description: xiv, 64 leaves : 29 cmSummary: This study aimed to develop insulating bricks using Sulquiano red clay and
carbonized rice straw, with varying amounts of F1 (100:0), F2 (90:5), F3 (80:20), and
F4 (65:35). Given the availability of these materials, the goal was to discover their
potential for developing insulating bricks. Sulquiano red clay was screened through a
#100 mesh and carbonized rice straw through a #60 mesh. Test bars (1x1x6 inches)
were formed using the slabbing method, air-dried for 2 days, oven-dried at 110°C for
8 hours, and then fired at 1050°C. The study evaluated the physical properties and
thermal properties of the test bars. Results showed average linear shrinkage from 9.94%
to 14.14%, water absorption from 20.78% to 44.02%, with increasing apparent porosity
between 35.93% and 53.01%, and decreasing the bulk density from 1.20 g/cm³ to 2.23
g/cm³. Thermal conductivity ranged from 0.466 W/m·K to 0.958 W/m·K. Based on
these physical and thermal properties, formulations F3 (80:20) and F4 (65:35)
performed most promising formulation for developing thermal insulating bricks.
| Item type | Home library | Shelving location | Call number | Status | Notes | Date due | Barcode |
|---|---|---|---|---|---|---|---|
| Thesis/Dissertation | MMSU Main Library | Theses and Dissertation Section | Available | Room Use Only | UTHESIS-6947 |
UTHESIS (Bachelor of Science in Ceremic Engineering)
Bibliography : leaves 39-40
This study aimed to develop insulating bricks using Sulquiano red clay and
carbonized rice straw, with varying amounts of F1 (100:0), F2 (90:5), F3 (80:20), and
F4 (65:35). Given the availability of these materials, the goal was to discover their
potential for developing insulating bricks. Sulquiano red clay was screened through a
#100 mesh and carbonized rice straw through a #60 mesh. Test bars (1x1x6 inches)
were formed using the slabbing method, air-dried for 2 days, oven-dried at 110°C for
8 hours, and then fired at 1050°C. The study evaluated the physical properties and
thermal properties of the test bars. Results showed average linear shrinkage from 9.94%
to 14.14%, water absorption from 20.78% to 44.02%, with increasing apparent porosity
between 35.93% and 53.01%, and decreasing the bulk density from 1.20 g/cm³ to 2.23
g/cm³. Thermal conductivity ranged from 0.466 W/m·K to 0.958 W/m·K. Based on
these physical and thermal properties, formulations F3 (80:20) and F4 (65:35)
performed most promising formulation for developing thermal insulating bricks.
There are no comments on this title.