14
[68] Zhang, X., Wang, Z., &Wang, J. (2021). Analysis of
Wear Characteristics of Cutting Tools in Underground
Coal Mining. Journal of Mining Science, 57(3), 451–
463. doi: 10.1134/S1062739121030165.
[69] Zhang, X., Wang, Z., &Wang, J. (2021). Analysis of
Wear Characteristics of Cutting Tools in Underground
Coal Mining. Journal of Mining Science, 57(3), 451–
463. doi: 10.1134/S1062739121030165.
[70] Belle, B. K., &Ramani, R. V. (2019). Respirable
Coal Dust: A Review of Health Effects and Monitoring
Practices. International Journal of Mining Science
and Technology, 29(2), 189–199. doi: 10.1016/j.
ijmst.2018.12.005.
[71] Mohanty, A. (2023). Utilization of graphene to attain
sustainability in mine methodology: a review. Carbon
Letters, 33(3), 641–660.
[72] Mohanty, A., Mishra, M. K., Ghosh, S., Sahoo, B. B.,
Behera, C., Rostami, J., &Sesay, M. D. (2024, June).
Geotechnical Implications of Large Shale Deposits
on the Stability and Productivity of Iron Ore Mines:
A Comparative Study. In ARMA US Rock Mechanics/
Geomechanics Symposium (p. D022S018R021).
ARMA.
[73] Amponsah, P. O., Kwayisi, D., Awunyo, E. K.,
Sapah, M. S.,. Sakyi, P. A., Su, B. X., ...&Nude, P.
M. (2023). New evidence for crustal reworking and
juvenile arc‐magmatism during the Palaeoproterozoic
Eburnean events in the Suhum Basin, South‐ east
Ghana. Geological Journal, 58(10), 3734–3755.
[74] Prakash, A. J., Patro, K. K., Samantray, S., Pławiak,
P., &Hammad, M. (2023). A deep learning tech-
nique for biometric authentication using ECG beat
template matching. Information, 14(2), 65.
[75] Bilgin, N., Copur, H., &Balci, C. (2017). The Role
of Specific Energy in the Performance and Efficiency
of Mechanical Excavation Systems. Tunnelling
and Underground Space Technology, 69, 40–48.
doi: 10.1016/j.tust.2017.06.001.
[76] Zhang, X., Wang, Z., &Wang, J. (2021). Analysis of
Wear Characteristics of Cutting Tools in Underground
Coal Mining. Journal of Mining Science, 57(3), 451–
463. doi: 10.1134/S10627391210301657
[68] Zhang, X., Wang, Z., &Wang, J. (2021). Analysis of
Wear Characteristics of Cutting Tools in Underground
Coal Mining. Journal of Mining Science, 57(3), 451–
463. doi: 10.1134/S1062739121030165.
[69] Zhang, X., Wang, Z., &Wang, J. (2021). Analysis of
Wear Characteristics of Cutting Tools in Underground
Coal Mining. Journal of Mining Science, 57(3), 451–
463. doi: 10.1134/S1062739121030165.
[70] Belle, B. K., &Ramani, R. V. (2019). Respirable
Coal Dust: A Review of Health Effects and Monitoring
Practices. International Journal of Mining Science
and Technology, 29(2), 189–199. doi: 10.1016/j.
ijmst.2018.12.005.
[71] Mohanty, A. (2023). Utilization of graphene to attain
sustainability in mine methodology: a review. Carbon
Letters, 33(3), 641–660.
[72] Mohanty, A., Mishra, M. K., Ghosh, S., Sahoo, B. B.,
Behera, C., Rostami, J., &Sesay, M. D. (2024, June).
Geotechnical Implications of Large Shale Deposits
on the Stability and Productivity of Iron Ore Mines:
A Comparative Study. In ARMA US Rock Mechanics/
Geomechanics Symposium (p. D022S018R021).
ARMA.
[73] Amponsah, P. O., Kwayisi, D., Awunyo, E. K.,
Sapah, M. S.,. Sakyi, P. A., Su, B. X., ...&Nude, P.
M. (2023). New evidence for crustal reworking and
juvenile arc‐magmatism during the Palaeoproterozoic
Eburnean events in the Suhum Basin, South‐ east
Ghana. Geological Journal, 58(10), 3734–3755.
[74] Prakash, A. J., Patro, K. K., Samantray, S., Pławiak,
P., &Hammad, M. (2023). A deep learning tech-
nique for biometric authentication using ECG beat
template matching. Information, 14(2), 65.
[75] Bilgin, N., Copur, H., &Balci, C. (2017). The Role
of Specific Energy in the Performance and Efficiency
of Mechanical Excavation Systems. Tunnelling
and Underground Space Technology, 69, 40–48.
doi: 10.1016/j.tust.2017.06.001.
[76] Zhang, X., Wang, Z., &Wang, J. (2021). Analysis of
Wear Characteristics of Cutting Tools in Underground
Coal Mining. Journal of Mining Science, 57(3), 451–
463. doi: 10.1134/S10627391210301657