Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lecture1 : Basics of Rock Engineering : IntroductionDownload
2Lecture 2 : Basics of Rock Engineering : coring, sampling, UCS of intact rockDownload
3Lecture 3: Basics of Rock Engineering: Tensile strength and shear strength of intact rockDownload
4Lecture 4 : Basics of Rock Engineering : Classification of intact rocks, concept of rock mass, RQDDownload
5Lecture 5 : Basics of Rock Engineering : Classification of rock mass-1Download
6Lecture 6: Basics of Rock Engineering: Classification of rock mass: Q-system and GSIDownload
7Lecture 7: Basics of Rock Engineering: Failure criteria for rocks-1Download
8Lecture 8: Basics of Rock Engineering: Empirical failure criteriaDownload
9Lecture 9: Tunneling: underground excavationsDownload
10Lecture 10: Tunneling: Ground conditionsDownload
11Lecture 11: Planning of and exploration for underground construction projectsDownload
12Lecture 12: Underground excavation failure mechanismsDownload
13Lecture 13: Application of stereographic projection method: roof failureDownload
14Lecture 14: Application of stereographic projection method: sidewall failures-1Download
15Lecture 15: Application of stereographic projection method: sidewall failures-2Download
16Lecture 16: Elastic stress distribution around circular tunnels-01Download
17Lecture 17: Elastic stress distribution around circular tunnels-02Download
18Lecture 18: Elastic analysis of circular tunnels-displacementsDownload
19Lecture 19: Thick wall cylinder in biaxial stress fieldDownload
20Lecture 20: Stress distribution around non-circular openings in elastic ground conditions: 01Download
21Lecture 21: Stress distribution around non-circular openings in elastic ground conditions: 02Download
22Lecture 22: Stress distribution under different in-situ stress conditions: design principlesDownload
23Lecture 23: Stress distribution for multiple openingsDownload
24Lecture 24: Openings in laminated rocks-01Download
25Lecture 25: Openings in laminated rocks-02Download
26Lecture 26: Openings in laminated rocks-03Download
27Lecture 27: Openings in laminated rocks-04Download
28Lecture 28: Elasto-plastic analysis of tunnels: Tresca yield criterion-01Download
29Lecture 29: Elasto-plastic analysis of tunnels: Tresca yield criterion-02Download
30Lecture 30: Elasto-plastic analysis of tunnels: Mohr-Coulomb criterionDownload
31Lecture 31: Application of rock mass classification system: Terzaghi’s rock load theory-01Download
32Lecture 32: Application of rock mass classification system: Terzaghi’s rock load theory-02Download
33Lecture 33: Application of rock mass classification system: rock mass rating (RMR)Download
34Lecture 34: Tunnel hazardsDownload
35Lecture 35: Tunnel hazards: squeezing ground conditionsDownload
36Lecture 36: Application of rock mass classification system: rock mass quality (Q) system-01Download
37Lecture 37: Application of rock mass classification system: rock mass quality system-02, NATM, NMTDownload
38Lecture 38: Modulus of deformation of rock mass using Q-system, rock mass number, plate loading testDownload
39Lecture 39: Modulus of deformation of rock mass: uni-axial jacking /plate jacking testDownload
40Lecture 40: Modulus of deformation of rock mass: radial jacking test and Goodman jack testDownload
41Lecture 41: Rock mass support interaction analysis: ground response and support reaction curves-01Download
42Lecture 42: Rock mass support interaction analysis: ground response and support reaction curves-02Download
43Lecture 43: Rock mass support interaction analysis: influencing factors, Ladanyi’s E-P analysisDownload
44Lecture 44: Ladanyi’s elasto-plastic analysis of tunnels: analysis of stresses and deformationsDownload
45Lecture 45: Rock-support interaction analysis: required support line, analysis of available supportDownload
46Lecture 46: Rock-support interaction analysis: for shotcrete/concrete lining & blocked steel setsDownload
47Lecture 47: Rock-support interaction analysis: for ungrouted rock bolts, grouted rock bolts/cablesDownload
48Lecture 48: Calculation sequence for rock-support interaction analysis-01Download
49Lecture 49: Calculation sequence for rock-support interaction analysis-02Download
50Lecture 50: Calculation sequence for rock-support interaction analysis-exampleDownload

Sl.No Chapter Name English
1Lecture1 : Basics of Rock Engineering : IntroductionDownload
Verified
2Lecture 2 : Basics of Rock Engineering : coring, sampling, UCS of intact rockDownload
Verified
3Lecture 3: Basics of Rock Engineering: Tensile strength and shear strength of intact rockDownload
Verified
4Lecture 4 : Basics of Rock Engineering : Classification of intact rocks, concept of rock mass, RQDDownload
Verified
5Lecture 5 : Basics of Rock Engineering : Classification of rock mass-1Download
Verified
6Lecture 6: Basics of Rock Engineering: Classification of rock mass: Q-system and GSIPDF unavailable
7Lecture 7: Basics of Rock Engineering: Failure criteria for rocks-1PDF unavailable
8Lecture 8: Basics of Rock Engineering: Empirical failure criteriaPDF unavailable
9Lecture 9: Tunneling: underground excavationsPDF unavailable
10Lecture 10: Tunneling: Ground conditionsPDF unavailable
11Lecture 11: Planning of and exploration for underground construction projectsPDF unavailable
12Lecture 12: Underground excavation failure mechanismsPDF unavailable
13Lecture 13: Application of stereographic projection method: roof failurePDF unavailable
14Lecture 14: Application of stereographic projection method: sidewall failures-1PDF unavailable
15Lecture 15: Application of stereographic projection method: sidewall failures-2PDF unavailable
16Lecture 16: Elastic stress distribution around circular tunnels-01PDF unavailable
17Lecture 17: Elastic stress distribution around circular tunnels-02PDF unavailable
18Lecture 18: Elastic analysis of circular tunnels-displacementsPDF unavailable
19Lecture 19: Thick wall cylinder in biaxial stress fieldPDF unavailable
20Lecture 20: Stress distribution around non-circular openings in elastic ground conditions: 01PDF unavailable
21Lecture 21: Stress distribution around non-circular openings in elastic ground conditions: 02PDF unavailable
22Lecture 22: Stress distribution under different in-situ stress conditions: design principlesPDF unavailable
23Lecture 23: Stress distribution for multiple openingsPDF unavailable
24Lecture 24: Openings in laminated rocks-01PDF unavailable
25Lecture 25: Openings in laminated rocks-02PDF unavailable
26Lecture 26: Openings in laminated rocks-03PDF unavailable
27Lecture 27: Openings in laminated rocks-04PDF unavailable
28Lecture 28: Elasto-plastic analysis of tunnels: Tresca yield criterion-01PDF unavailable
29Lecture 29: Elasto-plastic analysis of tunnels: Tresca yield criterion-02PDF unavailable
30Lecture 30: Elasto-plastic analysis of tunnels: Mohr-Coulomb criterionPDF unavailable
31Lecture 31: Application of rock mass classification system: Terzaghi’s rock load theory-01PDF unavailable
32Lecture 32: Application of rock mass classification system: Terzaghi’s rock load theory-02PDF unavailable
33Lecture 33: Application of rock mass classification system: rock mass rating (RMR)PDF unavailable
34Lecture 34: Tunnel hazardsPDF unavailable
35Lecture 35: Tunnel hazards: squeezing ground conditionsPDF unavailable
36Lecture 36: Application of rock mass classification system: rock mass quality (Q) system-01PDF unavailable
37Lecture 37: Application of rock mass classification system: rock mass quality system-02, NATM, NMTPDF unavailable
38Lecture 38: Modulus of deformation of rock mass using Q-system, rock mass number, plate loading testPDF unavailable
39Lecture 39: Modulus of deformation of rock mass: uni-axial jacking /plate jacking testPDF unavailable
40Lecture 40: Modulus of deformation of rock mass: radial jacking test and Goodman jack testPDF unavailable
41Lecture 41: Rock mass support interaction analysis: ground response and support reaction curves-01PDF unavailable
42Lecture 42: Rock mass support interaction analysis: ground response and support reaction curves-02PDF unavailable
43Lecture 43: Rock mass support interaction analysis: influencing factors, Ladanyi’s E-P analysisPDF unavailable
44Lecture 44: Ladanyi’s elasto-plastic analysis of tunnels: analysis of stresses and deformationsPDF unavailable
45Lecture 45: Rock-support interaction analysis: required support line, analysis of available supportPDF unavailable
46Lecture 46: Rock-support interaction analysis: for shotcrete/concrete lining & blocked steel setsPDF unavailable
47Lecture 47: Rock-support interaction analysis: for ungrouted rock bolts, grouted rock bolts/cablesPDF unavailable
48Lecture 48: Calculation sequence for rock-support interaction analysis-01PDF unavailable
49Lecture 49: Calculation sequence for rock-support interaction analysis-02PDF unavailable
50Lecture 50: Calculation sequence for rock-support interaction analysis-examplePDF unavailable


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2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
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