Blasting in Surface Mines – Bench Design, Patterns & Parameters | DGMS Blasting Notes

🔹 1. Introduction

Blasting is a key operation in surface mining used to fragment hard rock so that excavators, shovels, and loaders can handle it efficiently.
Blasting quality influences:
Fragmentation
Shovel productivity
Crusher performance
Cost per tonne
Vibration and safety
DGMS sets strict regulations for safety, handling explosives, and blasting procedures in surface operations.

🔹 2. Bench Blasting – Basic Concept

A bench is a step-like working level in an open-pit or open-cast mine.
Blasting breaks the rock on a bench so that it can be excavated.
2.1 Bench Geometry
Bench Height (H): 8–15 m
Bench Width: ≥ 3 × bench height
Face Angle: 60°–70°
Overall Slope: Depends on rock strength
Good bench design improves safety, fragmentation, and stability.
2.2 Bench Blasting Layout (Diagram – Text)
Ground Surface--------------------------------------------------------- | Burden (B) |Hole 1 O ----------------------- Free FaceHole 2 O -----------------------Hole 3 O -----------------------

🔹 3. Blast-Hole Parameters
3.1 Burden (B)Distance from blast-hole to free face.
Controls rock movement.Typical value:B=25–40×hole diameterB = 25–40 \times \text{hole diameter}B=25–40×hole diameter
3.2 Spacing (S)Distance between adjacent holes.Typical:S=1.0–1.5×BS = 1.0–1.5 \times BS=1.0–1.5×B
3.3 Stemming (T)Inert material filled at the top of hole to confine explosive gases.
Usually crushed stone
Stemming length = 0.7 × burden

3.4 Sub-Drilling (J)Drilled below bench floor to ensure complete breakage.J=0.3–1.0 mJ = 0.3–1.0 \text{ m}J=0.3–1.0 m
3.5 Hole Diameter (D)100–300 mm depending on equipment and rock type.
3.6 Charge Length (L)Occupied by explosive column.

🔹 4. Types of Blasting Patterns
4.1 Square PatternEqual spacing and burden.
O --- O --- O| | |O --- O --- OUsed for uniform geology.
4.2 Staggered PatternHoles in alternate rows are staggered.
O ----- O ----- O O ----- O ----- OO ----- O ----- OGives better fragmentation

.
4.3 Line Drilling / Smooth Blasting
Holes drilled close together
For final walls
Minimizes overbreak

4.4 VCR (Vertical Crater Retreat)Used in very hard rock or deep pits.

🔹 5. Explosives Used in Surface Mines
Explosive Features
ANFO Cheap, good for dry holes
Slurry Water resistant
Emulsion High energy, good for wet holes
Heavy ANFO For higher energy needs
Booster For priming

🔹 6. Initiation & Delay Patterns

Proper delay timing ensures good fragmentation, reduced vibration, and easier digging.

Delay Systems
Electric detonators
Non-electric (Nonel)
Electronic detonators
Delay Patterns
V-pattern
Diagonal firing
Row-by-row firing
Staggered delay

🔹 7. Factors Affecting Fragmentation
Burden & spacing
Explosive type
Rock hardness
Hole deviation
VOD (Velocity of Detonation)
Timing sequence
Stemming quality

🔹 8. Safety in Blasting (DGMS Guidelines)
Blasting shelters
Warning signals (Red – 5 mins before blast)
Safe blasting zone
Proper stemming
Avoiding misfires
Overbreak control
Use of suitable explosives in wet holes
Supervision by shot-firer with valid certificate

🔥 9. Common Blasting Problems
Flyrock
Overbreak
Backbreak
Poor fragmentation
High vibration
Misfire
Excessive boulders
Underbreak

🔥 10. 25 MCQs (DGMS Pattern) with Answers
1) Burden is measured from —

a) Adjacent hole

b) Topsoil
c) Hole to free face
d) Bottom of bench
e) Stemming plug
Answer: c
2) Stemming is used to —

a) Increase hole depth
b) Reduce hole deviation
c) Confine explosive gases
d) Increase density
e) Raise burden
Answer: c
3) Typical bench height in surface mines —

a) 2–4 m
b) 4–6 m
c) 8–15 m
d) 20–30 m
e) None
Answer: c
4) Sub-drilling ensures —

a) More explosive
b) Clean floor breakage
c) High dilution
d) Wet holes
e) None
Answer: b
5) Hole diameter for surface blasting —

a) 50 mm
b) 100–300 mm
c) 400 mm
d) 25 mm
e) None
Answer: b
6) Square pattern is used for —

a) Gold
b) Granite
c) Uniform geology
d) Deep blasting
e) None
Answer: c
7) Staggered pattern improves —

a) Sub-drilling
b) Fragmentation
c) Bench stability
d) Topsoil removal
e) None
Answer: b
8) ANFO is unsuitable in —

a) Dry holes
b) Air-blast
c) Wet holes
d) Hard rock
e) VCR blasting
Answer: c
9) Emulsion explosives are —

a) Not water resistant
b) Cheap
c) Highly water resistant
d) Weak
e) None
Answer: c
10) Delay detonators reduce —

a) Bench height
b) Spacing
c) Vibration
d) Air blast
e) None
Answer: c
11) Flyrock is caused by —

a) Low stemming
b) Wrong timing
c) Excess explosive
d) All of these
e) None
Answer: d
12) VOD refers to —

a) Volume of dust
b) Ventilation
c) Velocity of detonation
d) Velocity of drill
e) Volume of det cord
Answer: c
13) Best fragmentation achieved with —

a) Single hole
b) Same row timing
c) Correct burden, spacing & timing
d) High stemming
e) No delay
Answer: c
14) Smooth blasting requires —

a) High explosives
b) No spacing
c) Line drilling
d) No sub-drill
e) None
Answer: c
15) Column charge occupies —

a) Entire hole
b) Top portion
c) Lower portion of hole
d) Stem section
e) None
Answer: c
16) A misfire refers to —

a) Quick blast
b) Small blast
c) Incomplete detonation
d) High muckpile
e) None
Answer: c
17) DGMS requires blasting shelters to be —

a) Optional
b) Mandatory
c) Only in underground
d) For small holes only
e) None
Answer: b
18) Major blasting hazard —

a) Flooding
b) Roof fall
c) Flyrock
d) Manriding
e) None
Answer: c
19) Stemming material should be —

a) Wood
b) Sand
c) Crushed inert stone
d) Coal dust
e) Clay only
Answer: c
20) Backbreak occurs due to —

a) Weak explosive
b) Excess burden
c) High spacing
d) Low sub-drill
e) None
Answer: b
21) Bench width depends on —

a) Blast size
b) Equipment size
c) Explosive density
d) Hole depth
e) None
Answer: b
22) Air blast is —

a) Gas emission
b) Shock pressure wave in air
c) Diesel exhaust
d) Cutter noise
e) None
Answer: b
23) Poor fragmentation leads to —

a) High shovel productivity
b) Low crusher output
c) High safety
d) Low blasting cost
e) None
Answer: b
24) Delay timing is used to —

a) Increase density
b) Increase vibration
c) Control rock throw
d) Remove stemming
e) None
Answer: c
25) Blast design is mainly the function of —

a) Truck size
b) Loader bucket
c) Rock mass & hole geometry
d) Haul road
e) None
Answer: c
🔚 Conclusion

Blasting in surface mines is a precise scientific operation involving the right combination of drilling patterns, bench design, explosive selection, and timing.
Correct blast engineering ensures better fragmentation, improved productivity, and reduced hazards as per DGMS norms.

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Blasting in Surface Mines – Bench Design, Patterns & Parameters | DGMS Blasting Notes

🔹 1. Introduction

🔹 2. Bench Blasting – Basic Concept

🔹 4. Types of Blasting Patterns
4.1 Square PatternEqual spacing and burden.
O --- O --- O| | |O --- O --- OUsed for uniform geology.
4.2 Staggered PatternHoles in alternate rows are staggered.
O ----- O ----- O O ----- O ----- OO ----- O ----- OGives better fragmentation

.
4.3 Line Drilling / Smooth Blasting
Holes drilled close together
For final walls
Minimizes overbreak

4.4 VCR (Vertical Crater Retreat)Used in very hard rock or deep pits.

🔹 5. Explosives Used in Surface Mines
Explosive Features
ANFO Cheap, good for dry holes
Slurry Water resistant
Emulsion High energy, good for wet holes
Heavy ANFO For higher energy needs
Booster For priming

🔹 6. Initiation & Delay Patterns

Proper delay timing ensures good fragmentation, reduced vibration, and easier digging.

a) Adjacent hole

b) Topsoil
c) Hole to free face
d) Bottom of bench
e) Stemming plug
Answer: c
2) Stemming is used to —

a) Increase hole depth
b) Reduce hole deviation
c) Confine explosive gases
d) Increase density
e) Raise burden
Answer: c
3) Typical bench height in surface mines —

a) 2–4 m
b) 4–6 m
c) 8–15 m
d) 20–30 m
e) None
Answer: c
4) Sub-drilling ensures —

a) More explosive
b) Clean floor breakage
c) High dilution
d) Wet holes
e) None
Answer: b
5) Hole diameter for surface blasting —

a) 50 mm
b) 100–300 mm
c) 400 mm
d) 25 mm
e) None
Answer: b
6) Square pattern is used for —

a) Gold
b) Granite
c) Uniform geology
d) Deep blasting
e) None
Answer: c
7) Staggered pattern improves —

a) Sub-drilling
b) Fragmentation
c) Bench stability
d) Topsoil removal
e) None
Answer: b
8) ANFO is unsuitable in —

a) Dry holes
b) Air-blast
c) Wet holes
d) Hard rock
e) VCR blasting
Answer: c
9) Emulsion explosives are —

a) Not water resistant
b) Cheap
c) Highly water resistant
d) Weak
e) None
Answer: c
10) Delay detonators reduce —

a) Bench height
b) Spacing
c) Vibration
d) Air blast
e) None
Answer: c
11) Flyrock is caused by —

a) Low stemming
b) Wrong timing
c) Excess explosive
d) All of these
e) None
Answer: d
12) VOD refers to —

a) Volume of dust
b) Ventilation
c) Velocity of detonation
d) Velocity of drill
e) Volume of det cord
Answer: c
13) Best fragmentation achieved with —

a) Single hole
b) Same row timing
c) Correct burden, spacing & timing
d) High stemming
e) No delay
Answer: c
14) Smooth blasting requires —

a) High explosives
b) No spacing
c) Line drilling
d) No sub-drill
e) None
Answer: c
15) Column charge occupies —

a) Entire hole
b) Top portion
c) Lower portion of hole
d) Stem section
e) None
Answer: c
16) A misfire refers to —

a) Quick blast
b) Small blast
c) Incomplete detonation
d) High muckpile
e) None
Answer: c
17) DGMS requires blasting shelters to be —

a) Optional
b) Mandatory
c) Only in underground
d) For small holes only
e) None
Answer: b
18) Major blasting hazard —

a) Flooding
b) Roof fall
c) Flyrock
d) Manriding
e) None
Answer: c
19) Stemming material should be —

a) Wood
b) Sand
c) Crushed inert stone
d) Coal dust
e) Clay only
Answer: c
20) Backbreak occurs due to —

a) Weak explosive
b) Excess burden
c) High spacing
d) Low sub-drill
e) None
Answer: b
21) Bench width depends on —

a) Blast size
b) Equipment size
c) Explosive density
d) Hole depth
e) None
Answer: b
22) Air blast is —

a) Gas emission
b) Shock pressure wave in air
c) Diesel exhaust
d) Cutter noise
e) None
Answer: b
23) Poor fragmentation leads to —

a) High shovel productivity
b) Low crusher output
c) High safety
d) Low blasting cost
e) None
Answer: b
24) Delay timing is used to —

a) Increase density
b) Increase vibration
c) Control rock throw
d) Remove stemming
e) None
Answer: c
25) Blast design is mainly the function of —

a) Truck size
b) Loader bucket
c) Rock mass & hole geometry
d) Haul road
e) None
Answer: c
🔚 Conclusion

Blasting in surface mines is a precise scientific operation involving the right combination of drilling patterns, bench design, explosive selection, and timing.
Correct blast engineering ensures better fragmentation, improved productivity, and reduced hazards as per DGMS norms.

Download more DGMS Blasting Notes & MCQs at OnlineMiningExam.com
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📚 Daily Quiz • DGMS Prep

📚 Daily Quiz • DGMS Prep

Explosive	Features
ANFO	Cheap, good for dry holes
Slurry	Water resistant
Emulsion	High energy, good for wet holes
Heavy ANFO	For higher energy needs
Booster	For priming

Blasting in Surface Mines – Bench Design, Patterns & Parameters | DGMS Blasting Notes

🔹 1. Introduction

🔹 2. Bench Blasting – Basic Concept

🔹 4. Types of Blasting Patterns4.1 Square PatternEqual spacing and burden.O --- O --- O| | |O --- O --- OUsed for uniform geology.4.2 Staggered PatternHoles in alternate rows are staggered.O ----- O ----- O O ----- O ----- OO ----- O ----- OGives better fragmentation

.4.3 Line Drilling / Smooth BlastingHoles drilled close togetherFor final wallsMinimizes overbreak4.4 VCR (Vertical Crater Retreat)Used in very hard rock or deep pits.

🔹 5. Explosives Used in Surface MinesExplosiveFeaturesANFOCheap, good for dry holesSlurryWater resistantEmulsionHigh energy, good for wet holesHeavy ANFOFor higher energy needsBoosterFor priming🔹 6. Initiation & Delay Patterns

Proper delay timing ensures good fragmentation, reduced vibration, and easier digging.

a) Adjacent hole

b) Topsoilc) Hole to free faced) Bottom of benche) Stemming plugAnswer: c2) Stemming is used to —

a) Increase hole depthb) Reduce hole deviationc) Confine explosive gasesd) Increase densitye) Raise burdenAnswer: c3) Typical bench height in surface mines —

a) 2–4 mb) 4–6 mc) 8–15 md) 20–30 me) NoneAnswer: c4) Sub-drilling ensures —

a) More explosiveb) Clean floor breakagec) High dilutiond) Wet holese) NoneAnswer: b5) Hole diameter for surface blasting —

a) 50 mmb) 100–300 mmc) 400 mmd) 25 mme) NoneAnswer: b6) Square pattern is used for —

a) Goldb) Granitec) Uniform geologyd) Deep blastinge) NoneAnswer: c7) Staggered pattern improves —

a) Sub-drillingb) Fragmentationc) Bench stabilityd) Topsoil removale) NoneAnswer: b8) ANFO is unsuitable in —

a) Dry holesb) Air-blastc) Wet holesd) Hard rocke) VCR blastingAnswer: c9) Emulsion explosives are —

a) Not water resistantb) Cheapc) Highly water resistantd) Weake) NoneAnswer: c10) Delay detonators reduce —

a) Bench heightb) Spacingc) Vibrationd) Air blaste) NoneAnswer: c11) Flyrock is caused by —

a) Low stemmingb) Wrong timingc) Excess explosived) All of thesee) NoneAnswer: d12) VOD refers to —

a) Volume of dustb) Ventilationc) Velocity of detonationd) Velocity of drille) Volume of det cordAnswer: c13) Best fragmentation achieved with —

a) Single holeb) Same row timingc) Correct burden, spacing & timingd) High stemminge) No delayAnswer: c14) Smooth blasting requires —

a) High explosivesb) No spacingc) Line drillingd) No sub-drille) NoneAnswer: c15) Column charge occupies —

a) Entire holeb) Top portionc) Lower portion of holed) Stem sectione) NoneAnswer: c16) A misfire refers to —

a) Quick blastb) Small blastc) Incomplete detonationd) High muckpilee) NoneAnswer: c17) DGMS requires blasting shelters to be —

a) Optionalb) Mandatoryc) Only in undergroundd) For small holes onlye) NoneAnswer: b18) Major blasting hazard —

a) Floodingb) Roof fallc) Flyrockd) Manridinge) NoneAnswer: c19) Stemming material should be —

a) Woodb) Sandc) Crushed inert stoned) Coal duste) Clay onlyAnswer: c20) Backbreak occurs due to —

a) Weak explosiveb) Excess burdenc) High spacingd) Low sub-drille) NoneAnswer: b21) Bench width depends on —

a) Blast sizeb) Equipment sizec) Explosive densityd) Hole depthe) NoneAnswer: b22) Air blast is —

a) Gas emissionb) Shock pressure wave in airc) Diesel exhaustd) Cutter noisee) NoneAnswer: b23) Poor fragmentation leads to —

a) High shovel productivityb) Low crusher outputc) High safetyd) Low blasting coste) NoneAnswer: b24) Delay timing is used to —

a) Increase densityb) Increase vibrationc) Control rock throwd) Remove stemminge) NoneAnswer: c25) Blast design is mainly the function of —

a) Truck sizeb) Loader bucketc) Rock mass & hole geometryd) Haul roade) NoneAnswer: c 🔚 Conclusion

Blasting in surface mines is a precise scientific operation involving the right combination of drilling patterns, bench design, explosive selection, and timing.Correct blast engineering ensures better fragmentation, improved productivity, and reduced hazards as per DGMS norms.

Download more DGMS Blasting Notes & MCQs at OnlineMiningExam.com⭐ Join OME Telegram for daily blasting quizzes and solved numericals

OUR COURSES View More

You may also be interested in

🔹 4. Types of Blasting Patterns
4.1 Square PatternEqual spacing and burden.
O --- O --- O| | |O --- O --- OUsed for uniform geology.
4.2 Staggered PatternHoles in alternate rows are staggered.
O ----- O ----- O O ----- O ----- OO ----- O ----- OGives better fragmentation

.
4.3 Line Drilling / Smooth Blasting
Holes drilled close together
For final walls
Minimizes overbreak

4.4 VCR (Vertical Crater Retreat)Used in very hard rock or deep pits.

🔹 5. Explosives Used in Surface Mines
Explosive Features
ANFO Cheap, good for dry holes
Slurry Water resistant
Emulsion High energy, good for wet holes
Heavy ANFO For higher energy needs
Booster For priming

🔹 6. Initiation & Delay Patterns

b) Topsoil
c) Hole to free face
d) Bottom of bench
e) Stemming plug
Answer: c
2) Stemming is used to —

a) Increase hole depth
b) Reduce hole deviation
c) Confine explosive gases
d) Increase density
e) Raise burden
Answer: c
3) Typical bench height in surface mines —

a) 2–4 m
b) 4–6 m
c) 8–15 m
d) 20–30 m
e) None
Answer: c
4) Sub-drilling ensures —

a) More explosive
b) Clean floor breakage
c) High dilution
d) Wet holes
e) None
Answer: b
5) Hole diameter for surface blasting —

a) 50 mm
b) 100–300 mm
c) 400 mm
d) 25 mm
e) None
Answer: b
6) Square pattern is used for —

a) Gold
b) Granite
c) Uniform geology
d) Deep blasting
e) None
Answer: c
7) Staggered pattern improves —

a) Sub-drilling
b) Fragmentation
c) Bench stability
d) Topsoil removal
e) None
Answer: b
8) ANFO is unsuitable in —

a) Dry holes
b) Air-blast
c) Wet holes
d) Hard rock
e) VCR blasting
Answer: c
9) Emulsion explosives are —

a) Not water resistant
b) Cheap
c) Highly water resistant
d) Weak
e) None
Answer: c
10) Delay detonators reduce —

a) Bench height
b) Spacing
c) Vibration
d) Air blast
e) None
Answer: c
11) Flyrock is caused by —

a) Low stemming
b) Wrong timing
c) Excess explosive
d) All of these
e) None
Answer: d
12) VOD refers to —

a) Volume of dust
b) Ventilation
c) Velocity of detonation
d) Velocity of drill
e) Volume of det cord
Answer: c
13) Best fragmentation achieved with —

a) Single hole
b) Same row timing
c) Correct burden, spacing & timing
d) High stemming
e) No delay
Answer: c
14) Smooth blasting requires —

a) High explosives
b) No spacing
c) Line drilling
d) No sub-drill
e) None
Answer: c
15) Column charge occupies —

a) Entire hole
b) Top portion
c) Lower portion of hole
d) Stem section
e) None
Answer: c
16) A misfire refers to —

a) Quick blast
b) Small blast
c) Incomplete detonation
d) High muckpile
e) None
Answer: c
17) DGMS requires blasting shelters to be —

a) Optional
b) Mandatory
c) Only in underground
d) For small holes only
e) None
Answer: b
18) Major blasting hazard —

a) Flooding
b) Roof fall
c) Flyrock
d) Manriding
e) None
Answer: c
19) Stemming material should be —

a) Wood
b) Sand
c) Crushed inert stone
d) Coal dust
e) Clay only
Answer: c
20) Backbreak occurs due to —

a) Weak explosive
b) Excess burden
c) High spacing
d) Low sub-drill
e) None
Answer: b
21) Bench width depends on —

a) Blast size
b) Equipment size
c) Explosive density
d) Hole depth
e) None
Answer: b
22) Air blast is —

a) Gas emission
b) Shock pressure wave in air
c) Diesel exhaust
d) Cutter noise
e) None
Answer: b
23) Poor fragmentation leads to —

a) High shovel productivity
b) Low crusher output
c) High safety
d) Low blasting cost
e) None
Answer: b
24) Delay timing is used to —

a) Increase density
b) Increase vibration
c) Control rock throw
d) Remove stemming
e) None
Answer: c
25) Blast design is mainly the function of —

a) Truck size
b) Loader bucket
c) Rock mass & hole geometry
d) Haul road
e) None
Answer: c
🔚 Conclusion

Blasting in surface mines is a precise scientific operation involving the right combination of drilling patterns, bench design, explosive selection, and timing.
Correct blast engineering ensures better fragmentation, improved productivity, and reduced hazards as per DGMS norms.

Download more DGMS Blasting Notes & MCQs at OnlineMiningExam.com
⭐ Join OME Telegram for daily blasting quizzes and solved numericals