Investigation of deposits for traditional extraction activities (metals and coal) has generally been based on determining grade, or content, of the required material. In order to apply the grade concept to an ornamental rock such as slate, it is first necessary to define the variables that determine both the geotechnical recovery rate for the rock mass — which conditions the size of the extracted blocks – and the aesthetic features of the slate — which define the quality of the slabs as potential roofing material.
For this research, geotechnical and aesthetic data for a slate deposit were collected from 16 continuous core borehole samples. A fuzzy expert system was then developed using this data, defining the rock mass recovery rate and slab quality in accordance with the criteria of a slate expert, producing as a final output a zonation of the deposit in terms of top quality slate, medium quality slate or waste.
A mathematical model based on fuzzy logic was chosen due to the fact that the boundaries between different quality groups in a deposit are not clearly distinguished. Moreover, quality also depends on a company's infrastructures for transformation of the blocks, and also on its commercial strategies. 相似文献
A study has been done for analysing soil nailed cuts with circular type wedge failure by friction circle method. Various parameters
such as nail length, nail diameter, nail inclination, wall inclination and angle of internal friction of soil have been considered
to determine the factor of safety of nailed open cuts. The study shows that for cohesionless soil nailed cut, factor of safety
increase with increase of parameters like angle of internal friction of soil, length of nail (L) versus height of cut (H) ratio, cohesion of soil and nail inclination (upto 15°) with horizontal. The study revealed that nails grouted with cement
perform better than driven nails. A case study further confirms the analytical findings.
Received 7 October 相似文献
The hybrid numerical model had been developed to simulate a complicated 3D flow around structures generated by tsunami. In
the model, the conventional 2D model is adopted for the wide region far from structures and the 3D non-hydrostatic pressure
model is used in the limited region adjacent to structures. The applicability of the model is shown by comparisons of the
numerical results with the experimental results of the laboratory model tests and the numerical analysis results of the conventional
whole 2D simulation. In addition, the effect of a submerged structure at the opening of a breakwater is discussed from the
numerical simulations by the hybrid model. The submerged structure improves the stability of the rubble mound and reduces
the tsunami inflow into the bay, while it increases the water surface velocity around the opening of the breakwater. The increase
of surface velocity causes the increases of impulsive forces by collision with drafts and so on. 相似文献