Figures index

From

Mechanical Properties of Thebes Limestone Treated by Nano Filler Particles

Ahmed F. Mohamed, A.F. Gelany, M.S. Abd El-sadek, Abbas M. Mansour

American Journal of Mechanical Engineering. 2019, 7(3), 138-145 doi:10.12691/ajme-7-3-4
  • Figure 1. Scheme for (a) EDAX Nano Calcium Carbonate (b) EDAX Nano Calcium Hydroxide
  • Figure 2. FT – IR analysis for (a) Nano Calcium Carbonate (b) Nano Calcium Hydroxide (c) Nano Thebes Calcium Carbonate
  • Figure 3. Transmission Electron Microscope TEM for three synthesis Nanomaterials (a) Nano Calcium Hydroxide (b) Nano Calcium Carbonate (c) Nano Thebes Calcium Carbonate
  • Figure 4. SEM Coated Samples with Nano Calcium Carbonate a) Nano Calcium Carbonate Powder, b) Fresh Samples of Old Thebes Limestone Quarry, c) Coated Samples with 15% Calcium Carbonate, d) Coated Samples with 30% Nano Calcium Carbonate
  • Figure 5. SEM Coated Samples with Nano calcium hydroxides) Nano calcium hydroxide Powder, b) Fresh Samples of Old Thebes Limestone Quarry, c) Coated Samples with 15% calcium hydroxide, d) Coated Samples with 30% Nano calcium hydroxide
  • Figure 6. SEM Coated Samples with mortar, a) mortar of 15% Nano Calcium Carbonate, b) mortar of 30% Nano Calcium Carbonate, c) mortar of 15% Nano Calcium Hydroxide, d) mortar of 30% Nano Calcium Hydroxide
  • Figure 7. Samples of Thebes limestone (a) Cubic samples (b) Elongated fractured samples
  • Figure 8. The single edge notch bending specimen (SENB)
  • Figure 9. Stress-Strain diagram for treatable limestone
  • Figure 10. Stress-Strain diagram for treatable limestone