Volume-3 ~ Issue-5
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| Paper Type | : | Research Paper |
| Title | : | Use of Graphical Technique for Stability Analysis of Embankment |
| Country | : | India |
| Authors | : | Nilesh M. Tanpure, Smt. Shubhada Sunil Koranne |
 |
: | 10.9790/1684-0350110  |
Abstract: To authenticate the stability of homogeneous slopes, a simplified version of the friction circle method
is presented in the proposed investigation. By introducing few simplified assumptions, the original friction circle
method has been modified to provide a simpler and user-friendly technique for slope stability analysis of finite
slopes. The graphical technique has been incorporated for the stability analysis of embankments in (c-) soils.
The use of this method recompenses the drawbacks of other methods of their suitability for performing stability
analysis in the field.
Keywords:c - cohesion, - friction angle of soils, - density of soil, ru - pore pressure ratio.
Keywords:c - cohesion, - friction angle of soils, - density of soil, ru - pore pressure ratio.
[1] Arrora K. R., "Soil Mechanics and Foundation Engineering", Standard Publisher Distributor, Fourth Edition, 1997.
[2] Bishop A.W., "The Use of Slip Circle in the Stability Analysis of Slopes", Geotechnique Vol. 5, No.1 pp 7 -17, 1955.
[3] Chen Z and Morgenstern N.R., "Extension to Generalized Method of Slices for Stability
[4] Analysis", Canadian Geotechnical Journal Vol. 20 No.1, pp 104-119, 1983.
[5] Donald W. Taylor, "Stability of Earth Slopes", Boston Society of Civil Engineers, Vol. XXIV, No.3, pp 197-246, July 1937.
[6] E. Spencer, "A Method Analysis of the Stability of Embankments Assuming Parallel Interslice Forces", Geotechnique Vol. 17,
No.1, pp 11-26, 1967.
[7] G. Bhattacharya and P.K. Basudhar, "A New Procedure for Finding Critical Slip Surface in Slope Stability Analysis", Indian
Geotechnical Journal, Vol. 31, No.2, pp 149-171, 2001.
[8] G. Bhattacharya and P.K. Basudhar, "Generalized Procedure of Slices for Analysis of Zoned Dams Under Steady Seepage", Indian
Geotechnical Journal, Vl. 31, No.2, pp 173-193, 2001.
[9] L.D. Wesley and V. Leelaratnam, "Shear Strength Parameters from Back Analysis of Single
[10] Slips", Geotechique Vol. 51, No.4, pp. 373-374, 2001.
[2] Bishop A.W., "The Use of Slip Circle in the Stability Analysis of Slopes", Geotechnique Vol. 5, No.1 pp 7 -17, 1955.
[3] Chen Z and Morgenstern N.R., "Extension to Generalized Method of Slices for Stability
[4] Analysis", Canadian Geotechnical Journal Vol. 20 No.1, pp 104-119, 1983.
[5] Donald W. Taylor, "Stability of Earth Slopes", Boston Society of Civil Engineers, Vol. XXIV, No.3, pp 197-246, July 1937.
[6] E. Spencer, "A Method Analysis of the Stability of Embankments Assuming Parallel Interslice Forces", Geotechnique Vol. 17,
No.1, pp 11-26, 1967.
[7] G. Bhattacharya and P.K. Basudhar, "A New Procedure for Finding Critical Slip Surface in Slope Stability Analysis", Indian
Geotechnical Journal, Vol. 31, No.2, pp 149-171, 2001.
[8] G. Bhattacharya and P.K. Basudhar, "Generalized Procedure of Slices for Analysis of Zoned Dams Under Steady Seepage", Indian
Geotechnical Journal, Vl. 31, No.2, pp 173-193, 2001.
[9] L.D. Wesley and V. Leelaratnam, "Shear Strength Parameters from Back Analysis of Single
[10] Slips", Geotechique Vol. 51, No.4, pp. 373-374, 2001.
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| Paper Type | : | Research Paper |
| Title | : | Correlation coefficients of generalized intuitionistic fuzzy sets by centroid method |
| Country | : | Egypt |
| Authors | : | I.M. Hanafy, A. A. Salama, K. M. A. Mahfouz |
|
: | 10.9790/1684-0351114 |
Abstract: In this paper, we propose a method to calculate the correlation coefficient of generalized
intuitionistic fuzzy sets by means of "centroid". The value which obtained from this method tell us the strength of
relationship between the generalized intuitionistic fuzzy sets [11] and the whether the generalized intuitionistic
fuzzy sets are positively or negatively related. This method looks better than previous methods which only
evaluated the strength of relation. Furthermore, we extended the "centroid" method to interval-valued
generalized intuitionistic fuzzy sets. The value of the correlation coefficient between interval-valued generalized
intuitionistic fuzzy sets lies in the interval [-1, 1], as computed from our formula.
Keywords: Centroid, Correlation coefficient, Interval-valued generalized intuitionistic fuzzy sets, Generalized intuitionistic fuzzy sets.
Keywords: Centroid, Correlation coefficient, Interval-valued generalized intuitionistic fuzzy sets, Generalized intuitionistic fuzzy sets.
[1] Ding-An Chiang and Nancy P. Lin, (1997), "Correlation of fuzzy sets", Fuzzy Sets and Systems, 102: 221-226.
[2] Gerstenkorn, T., Manko, J., (1991), "Correlation of intuitionistic fuzzy sets". Fuzzy Sets and Systems, 44, 39-43.
[3] Hong, D. H. and Hwang, S. W., (1995), "Correlation of intuitionistic fuzzy sets in probability spaces". Fuzzy Sets and Systems,
75: 77-81.
[4] Hung, W. L., (2001), "Using statistical viewpoint in developing correlation of intuitionistic fuzzy sets". International Journal of
Uncertainty Fuzziness Knowledge Based Systems, 9: 509-516.
[5] Hung, W. L. and Wu, J. W., (2002), "Correlation of intuitionistic fuzzy sets by centroid method". Information Sciences, 144:
219-225.
[6] K. Atanassov, (1986), "Intuitionistic fuzzy sets". Fuzzy Sets and Systems, 20:87-96.
[7] L. A. Zadeh, (1965), "Fuzzy sets". Information and Control, 8: 338-353.
[8] L. A. Zadeh, (1968), "Probability measures of fuzzy events", Journal of Mathematical Analysis and Applications, 23: 421-427.
[9] Turksen, I., (1986), "Interval-valued fuzzy sets based on normal form". Fuzzy Sets and Systems, 20: 191-210.
[10] A.A.Salam and S.A.Alblowi "NEUTROSOPHIC SET AND NEUTROSOPHIC TOPOLOGICAL SPACES" Accepted in
International Organization of Scientific Research (IOSR) M. Journal 2012.
[2] Gerstenkorn, T., Manko, J., (1991), "Correlation of intuitionistic fuzzy sets". Fuzzy Sets and Systems, 44, 39-43.
[3] Hong, D. H. and Hwang, S. W., (1995), "Correlation of intuitionistic fuzzy sets in probability spaces". Fuzzy Sets and Systems,
75: 77-81.
[4] Hung, W. L., (2001), "Using statistical viewpoint in developing correlation of intuitionistic fuzzy sets". International Journal of
Uncertainty Fuzziness Knowledge Based Systems, 9: 509-516.
[5] Hung, W. L. and Wu, J. W., (2002), "Correlation of intuitionistic fuzzy sets by centroid method". Information Sciences, 144:
219-225.
[6] K. Atanassov, (1986), "Intuitionistic fuzzy sets". Fuzzy Sets and Systems, 20:87-96.
[7] L. A. Zadeh, (1965), "Fuzzy sets". Information and Control, 8: 338-353.
[8] L. A. Zadeh, (1968), "Probability measures of fuzzy events", Journal of Mathematical Analysis and Applications, 23: 421-427.
[9] Turksen, I., (1986), "Interval-valued fuzzy sets based on normal form". Fuzzy Sets and Systems, 20: 191-210.
[10] A.A.Salam and S.A.Alblowi "NEUTROSOPHIC SET AND NEUTROSOPHIC TOPOLOGICAL SPACES" Accepted in
International Organization of Scientific Research (IOSR) M. Journal 2012.
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| Paper Type | : | Research Paper |
| Title | : | Selection of Shaft Sinking Method for Underground Mining in Khalashpir Coal Field, Khalashpir, Rangpur, Bangladesh |
| Country | : | Bangladesh |
| Authors | : | Atikul Haque Farazi, Chowdhury Quamruzzaman, Nasim Ferdous, Md. Abdul Mumin, Fansab Mustahid, A.K.M Fayazul Kabir |
|
: | 10.9790/1684-0351520 |
Abstract: Khalashpir coal field is the 3rd largest coal field in Bangladesh, where coal occurs at depths of
257m to 483m below the surface. Considering the Geological, Geo-environment and other related geoengineering
information, underground mining have been selected there to extract the deposit. In this paper, our
concern is about shaft sinking method for underground mining. Depths of the coal seams reveal the necessity of
a vertical shaft underground which again needs deep excavation. The problem arises with the excavation
because of nearly 138m thick Dupitila Sandstone Formation just 6m below the surface in the area. It is loose,
water bearing, containing dominantly porous and permeable sandstone and experiences massive water flow. So,
the major concern is that any excavation through this will readily collapse and suffer massive water inrush. This
will totally disturb the whole mining work progression and cause economic loss as well. By analyzing the
ground condition of the Khalashpir cola field, artificial ground freezing has been identified most appropriate as
shaft sinking method to control the ground water and to stabilize the loose soil during excavation. Lawfulness of
the method and reason of neglecting other two common shaft sinking methods has been pointed out in this
paper.
Keywords:Shaft sinking, freezing method, Ice wall, Ground Water, Caisson Sinking and Dewatering Method
Keywords:Shaft sinking, freezing method, Ice wall, Ground Water, Caisson Sinking and Dewatering Method
Journal Papers:
[1] Harris J.S, Ground Freezing In Practice (Thomas Telford Services Ltd, London, 1995).
[2] Osborne J, Shaft Excavation In Frozen Ground At Point 5.
Theses:
[3] Mondal Debasis, MSc thesis (2004) Selection of Mining Method in The Khalashpir Coal Field, Rangpur, Bangladesh.
Unpublished Papers:
[4] China Jinan Mining Development Corporation (2006) Techno-economic Feasibility Study of Khalashpir Coal Mine Project, Dhaka,
Bangladesh (unpublished).
[5] Dr. Yong Om Kil, Khalashpir Coal Mine Project, Pirganj, Rangpur (2005) Pumping Test Report of Exploration Boreholes on
Khalashpir Coal Field (unpublished).
[6] Korea South-South Cooperation Corporation (1997) Construction of Skip Shaft-1 (Freezing Sinking Section) Technical Design
(unpublished).
[7] Korea South-South Cooperation Corporation (NAMNAM) (2005) Recommendation on Selection of Conceptional Shaft Location on
Khalashpir Coal Field (unpublished).
[1] Harris J.S, Ground Freezing In Practice (Thomas Telford Services Ltd, London, 1995).
[2] Osborne J, Shaft Excavation In Frozen Ground At Point 5.
Theses:
[3] Mondal Debasis, MSc thesis (2004) Selection of Mining Method in The Khalashpir Coal Field, Rangpur, Bangladesh.
Unpublished Papers:
[4] China Jinan Mining Development Corporation (2006) Techno-economic Feasibility Study of Khalashpir Coal Mine Project, Dhaka,
Bangladesh (unpublished).
[5] Dr. Yong Om Kil, Khalashpir Coal Mine Project, Pirganj, Rangpur (2005) Pumping Test Report of Exploration Boreholes on
Khalashpir Coal Field (unpublished).
[6] Korea South-South Cooperation Corporation (1997) Construction of Skip Shaft-1 (Freezing Sinking Section) Technical Design
(unpublished).
[7] Korea South-South Cooperation Corporation (NAMNAM) (2005) Recommendation on Selection of Conceptional Shaft Location on
Khalashpir Coal Field (unpublished).
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| Paper Type | : | Research Paper |
| Title | : | Development of New Design of Specimens for Friction Determination in Metal Forming |
| Country | : | India |
| Authors | : | Rahul Thakur, Manoj Gangwar, Prabhash Jain |
|
: | 10.9790/1684-0352126 |
Abstract: The main objective of this research is to find alternate specimens for friction determination, and
develop their friction calibration curve. Finite Element simulation is carried out using these alternative
specimens and friction calibration curves are generated. Result of these curves is compared with ring
compression test. The result of this investigation shows that such alternative specimens may play important role
in friction determination in absence of ring specimen. It is observed that the geometry of those specimens which
consist any geometrical shape inside circle give very close friction values.
Keywords:Friction Coefficient, Metal Forming Process, Ring Compression Test, Finite Element
Keywords:Friction Coefficient, Metal Forming Process, Ring Compression Test, Finite Element
[1] Kunogi, ""A New Method of Cold Extrusion,‟‟ J. Sci. Research Inst.,Tokyo, Vol. 50, pp. 215–246, 1956
[2] Male, and Cockcroft, ""A method for the Determination of the Coefficient of Friction of Metals Under Condition of Bulk Plastic
Deformation,'' J. Inst. Met., Vol.93, pp. 38–46,1964–65
[3] Lee, Cheng I Weng and Jee Gong Chang, " A prediction of the friction factor for the forging process", Metallurgical and Materials
Transactions B, Vol. 32, pp 137-143, 2001
[4] Bugini, Maccarini, Giardini, Pacaggnilla, and Levi, "The Evalution of Flow Stress and Friction in Upsetting of Rings and Cylinders",
Annals of the CIRP, Vol. 42/1, pp. 335-338, 1993.
[5] Hayhurst, Chan, "Determination of friction models for metallic die work piece interfaces", International Journal of Mechanical
Sciences, Vol. 47, pp. 1-25, 2005.
[6] Sofuoglu Hasan, Jahan Rasty, "Determination of friction coefficient utilizing the ring compression test", Journal of Engineering
Materials and Technology, pp. 338-348, 2001.
[7] User‟s manual, ABACUS software, 2011.
[2] Male, and Cockcroft, ""A method for the Determination of the Coefficient of Friction of Metals Under Condition of Bulk Plastic
Deformation,'' J. Inst. Met., Vol.93, pp. 38–46,1964–65
[3] Lee, Cheng I Weng and Jee Gong Chang, " A prediction of the friction factor for the forging process", Metallurgical and Materials
Transactions B, Vol. 32, pp 137-143, 2001
[4] Bugini, Maccarini, Giardini, Pacaggnilla, and Levi, "The Evalution of Flow Stress and Friction in Upsetting of Rings and Cylinders",
Annals of the CIRP, Vol. 42/1, pp. 335-338, 1993.
[5] Hayhurst, Chan, "Determination of friction models for metallic die work piece interfaces", International Journal of Mechanical
Sciences, Vol. 47, pp. 1-25, 2005.
[6] Sofuoglu Hasan, Jahan Rasty, "Determination of friction coefficient utilizing the ring compression test", Journal of Engineering
Materials and Technology, pp. 338-348, 2001.
[7] User‟s manual, ABACUS software, 2011.