2.1.3

Question 1

1. Define an Explosion

Answer 1

A violent release of energy in the form of heat, light and a large volume of gas / pressure rupturing a confining structure.

Question 2

1. Types of Explosion?

Answer 2

Physical (or mechanical)
Chemical
Nuclear

Question 3

1. Define a Physical Explosion

Answer 3

A rupture of contained gas or vapour release rapidly, with NOISE and VIOLENT movement

Question 4

1. Define a Chemical Explosion

Answer 4

Extremely rapid reaction of a chemical system to produce a rapid expansion of gas and heat

Question 5

1. Define a Nuclear Explosion

Answer 5

A sudden release of enormous quantities of heat by fission or fusion processes

Question 6

1. Define a Blast

Answer 6

A violent disruptive effect caused by an explosion. From the explosion there will be a evolution of heat and gases and a SHOCK FRONT starting from the centre

Question 7

1. What are the phases of a Blast?

Answer 7

SHOCK front
POSITIVE pressure phase (compression)
NEGATIVE pressure phase (rarefaction)

Question 8

1. What are the effects of a blast wave:

Reflection?

Diffraction?

Answer 8

R - It bounces backs or reflects out at an angle from a boundary

- Incident wave: incoming wae
- Reflected wave: wave that is bounced back

D - Breaking up or SCATTERING of a wave by an obstacle

• The blast wave is thrown back at an angle to the original path, and/or
• The bouncing back of a wave after it strikes a boundary

Breaking up or scattering of a wave by an obstacle

Question 9

1 . Basic Principle of a Fuel Air Explosion?

Answer 9

Creating an aerosol cloud of fuel air mixture

then detonated for an explosive effect

Question 10

1. List the 7 main targets of FAE

Answer 10

SCPMSBC
Structures
Concentrations of AFV and SP guns
Parked aircraft
Minefield clearance
Ships
Bunkers / trenches
Concentrations of troops in the open

Question 11

2. Using the Probability Product Rule, what is the
   probability of a kill, given P(L) (Lethality) = 60%, P(R)
   (Reliability) 80% & P(H) (Chance of hit) = 60%?

Answer 11

P(K) = P(H) x P(R) x P(L)
PK = .6 X .8 X .6
PK = .288 or 29%

Question 12

2. What are the 6 main types of targets most frequently

engaged by fire?

Answer 12

PEVSACx

People
Vehicles
Structures
Equipment
Aircraft
Complex

Question 13

2. List the 3 levels of damage which an ammunition

designer may wish to achieve in regards to Target Analysis?

Answer 13

Disablement

Destruction

Neutralisation

Question 14

2. On the battlefield there are 3 types of key target groups that present themselves to land forces, list them?

Answer 14

People
Attack on Armour
Aircraft in flight

Question 15

2. Kinetic & Chemical are 2 main sources of energy employed in ammo design. Briefly describe each?

Answer 15

KINETIC Energy

- In the form of a solid missile (a "shot") 
- dissipates energy on impact  
- requires no triggering device to control the energy release

CHEMICAL Energy

• In the form of a substance
• has considerable potential energy relative to its mass,
• can be released when suitably initiated

Question 16

3. What are the types of aircraft targets? (3)

Answer 16

FSH

Fast moving

Slow moving

Helicopters

Question 17

4. Aircraft Damage Criteria What is the standard criteria for damage and their effect on the target? (6)

Answer 17

KK-Kill target suffers IMMEDIATE and catastrophic disintegration
K-Kill destroyed in < 10 secs
A-Kill < 5 mins
B-Kill < 5 hours
C-Kill mission abort (mission unable to be achieved)
E-Kill target may complete the mission but will require repair before flying again.

Question 18

4. Aircraft Vulnerabilities (8)

Answer 18

Air frame
Aircrew
Fuel tanks
Engines
Power transmission systems
Flight controls
Avionics
Bomb load

Question 19

4. Types of Warheads against aircraft (7+)

Answer 19

BFF…SkScSpC

Blast
Frag
Frag + blast
Special Kinetic energy
Discrete and Continuous rod
Shaped Charges
Sub-projectiles
Cluster

Question 20

4. Effects of Altitude (4)

Answer 20

Density
Miss Distance
Attenuation
Altitude increases / warhead increases

Question 21

4. Reduction of Aircraft Vulnerable Areas (5)

Answer 21

ABCSS
Armouring
Burying sensitive components
Concentrating sensitive components
Separating components
Self-sealing fuel tanks

Question 22

4. What is the effect of Miss Distance?

Answer 22

Increase miss distance = increase NEQ

A greater NEQ is required as the miss distance increases

Question 23

5. Personnel - Types of damage? (2)

Answer 23

Physical

Mental

Question 24

5. The most efficient mode of attack against personnel requires…? (3)

Answer 24

High PROBABILITY of a hit

Rapid TRANSFER of energy

NO unnecessary OVERKILL

Question 25

5. What type of shells are Fragment attack PRODUCERS (3)

Answer 25

GPP

Generic HE projectiles
Pre notched containers
Pre formed fragments

Question 26

5. Control of Fragment SIZE is ACHIEVED by what? (4)

Answer 26

CTQV

• Case material and its mechanical properties
• Thickness of the wall
• Quantity of explosive and its position in relation to the fragmenting case
• VOD

Question 27

5. Control of Fragment VELOCITY is CONTROLLED by? (3)

Answer 27

DwAxCd

• Density of the wall material
• Amount of explosive behind the fragment wall
• Charge density and velocity of detonation

Question 28

5. What are the factors affecting performance of fragmentation?

Answer 28

DOHA

1. DISTRIBUTION of frag:
   - Spin rate will influence but not pattern
   - Usually symmetrical on longitudinal axis
   - Angle of arrival
2. Orientation of projectile
   - Effective distribution when angle is vertical
   - Increasing amount of frag is projected into the air or ground as the angle changes
3. Height of burst
   - 2-4 metres is best
   - achieved by fuzes
4. Average area of exposed target
   - Target posture
   - Terrain
   - PPE

Question 29

5. The severity of casualty or type of wound depends on what? (3)

Answer 29

Actual energy transferred
Rate of transfer of energy from projectile to target
Tumbling/yawing reduces energy transfer

Question 30

5. FACTORS AFFECTING energy transfer of Frag weapon onto personnel (3)

Answer 30

Mass and velocity
Cross sectional area
fragment stability

Question 31

6. List the 3 basic modes / methods of attack to defeat armoured vehicles and fortifications

Answer 31

KCC

Kinetic energy

Chemical energy

A combination of both

Question 32

6. Types of Armour Construction

Answer 32

RSPFECS

Rolled homogenous armour
Spaced homogenous
Ply
Face hardened
Explosive reactive armour (ERA)
Composite (Chobham)
Slat (bar)

Question 33

6. APC & MICV (IFV) assessment criteria?

Answer 33

F - firepower kill

P - payload kill (Inf in the back)

Question 34

6. What are the types of shot failure when striking armour? Explain each

Answer 34

Barrelling - Shot bellies at the midpoint due to direct compression failure. Shot fails to penetrate.
Shattering - Severe hoop stresses are set up at the nose, due to hardness of the metal. Shot cracks
Lateral bending - The shot is subject to lateral stresses at high angle of attack

Question 35

6. What are ways to Increase Penetration? (5)

Answer 35

Lengthening of the BARREL
Lengthening the PROJECTILE
RA - Rocket Assistance
Improve STEADINESS of shot
Use of segments long rod penetrators

Question 36

6. HEAT - Factors affecting Shape Charges (5)

Answer 36

Cone diameter
Shape of liner
Liner material
Stand-off distance
Rate of spin

Question 37

6. Types of chemical energy ammunition

Answer 37

HEAT
HESH (HE Squash Head)
Plate charges

Question 38

6. Behind Armour Effects

Answer 38

BAE contribute to lethality of attack

Effects may be physical, psychological or physiological

Question 39

6. BAE TYPES (4)

Answer 39

Luminescence
Spalling
Heat/fires
Overpressure

Question 40

6. Methods of weapons/Delivery of Plate Charges (5)

Answer 40

GGMAM

Guns

Grenades

Mines

Aircraft bombs

Missiles

Question 41

Factors taken into consideration in the defeat of armour (4)

Answer 41

Residual energy
Accuracy
Reliability
Lethality

Question 42

1. Description of Kinetic Energy

Answer 42

In the form of a solid missile/projectile, which dissipates it’s energy on impact and requires no triggering device to control the energy release.

Question 43

1. Description of Chemical Energy

Answer 43

In the form of a substance, with a considerable potential energy, relative to it’s mass, which can liberate that energy when suitably initiated. Such materials are familiar as HE and the initiation mechanism as the fuze.

Question 44

7. General Principles of HESH?

Answer 44

Rebounding tension wave meets further primary shock wave

Large scab is detached from the rear surface

Question 45

7. HESH Scab size in reference to its diameter

Answer 45

generally 1.25 to 1.5 times its own diameter

Velocity of scab 30 - 130 metres pers sec

Question 46

7. What are the factors affecting the performance of HESH? (3)

Answer 46

Calibre

Angle of attack

Striking velocity

Question 47

7. HESH performs well against? (3)

Answer 47

Emplacements
Pill-boxes
Concrete structures

Question 48

7. Types of armour that defeat HESH (4)

Answer 48

Spaced armour
Skirting plates
Grooved
Reactive armour

Question 49

7. Secondary effects from HESH (2)

Answer 49

Anti-personnel effects

Damage to sensitive equipment

Question 50

8. What does “APDS-T” stand for?

Answer 50

Armour Piercing Discarding Sabot - Trace

Question 51

8. What are the 2 parts of Discarding Sabot?

Answer 51

Petal

Pot

Question 52

8. 2 types of stabilisation used for Kinetic Energy Weapons?

Answer 52

Fin

Spin

Question 53

8. What does “APCNR” stand for

Answer 53

Armour-piercing Composite Non Rigid

Question 54

8. What the 3 types of Ballistic Requirements

Answer 54

Internal
(Intermediate)
External
Terminal

Question 55

9. What are the FACTORS affecting the performance of shaped charges? (5)

Answer 55

• Cone diameter
• Shape of liner
• Liner material
• Stand-off distance
• Rate of spin

Question 56

9. With a shaped charge the residual energy after penetration lies within what materials? (2)

Answer 56

• Unconsumed part of the jet

- Fragments of metal

Question 57

9. What is the principle of Shaped Charges?

Answer 57

If the energy from a HE charge could be FOCUSED or channeled to a point, it would be reasonable to expect that extremely high local energy levels could be achieved

Question 58

9. How do shaped charges achieve their effect?

Answer 58

Intense concentration of kinetic energy

Question 59

9. What is the Secondary effect of Shaped Charges

Answer 59

Anti-personnel effects from the fragmentation of the external casing

Question 60

9. Means of spin compensation for shaped charges/projectiles

Answer 60

Slipping driving bands
Fluted liners
Spin compensated liners

Question 61

1. What are the primary effects of an explosion

Answer 61

Blast

Heat

Fragmentation

Question 62

1. List the different types of fuel for FAE

Answer 62

L A B E K A P

Liquidated gases
Acetylene
Butane
Ethylene oxide
Kerosene
Aluminium
Propylene oxide

Question 63

1. Advantages of FAE

Answer 63

Greater overpressures than HE

Requires little or no oxygen in the molecular structure

3-5 times hotter than HE

Question 64

2. Basic techniques used in the attack of aircraft in flight (4)

Answer 64

Blast
Frag
Blast and Frag
Special KE

Question 65

2. Frag Warheads. Explain wastage and how a frag warhead can be made more EFFICIENT

Answer 65

• 80% inefficient.

Efficiency improved by:
- HE+Frag in narrow beam/ in one chosen direction

Question 66

8. KE Warheads - External & Terminal Ballistic Requirements? (3 + 1,1)

Answer 66

Small cross section
High mass
High velocity

Ext B: Aerodynamic design
Term B: Hard material

Question 67

9. SC Stand-off distance for Shaped charges?

Answer 67

5 CD - best performance

Question 68

9. Plate Charges. What are they also known as?

Answer 68

Miznay-Schardin Effect
Plate charge
EFP
Self forging fragment

Question 69

10. Decribe burning to detonation

Answer 69

Sudden accelerating of a flame front until a shock wave is formed.

• When explosives are confined in a tube and ignited at one end, the gas generated cannot escape.
• Pressure builds up the burn rate which may accelerate to sonic velocity
• A shock wave of formed and transforms into a detonation.

Question 70

Define Deflagration

Answer 70

Subsonic combustion that usually propagates through thermal conductivity of Iayers

Question 71

Define Detonation

Answer 71

Supersonic exothermic front Accelerating through a medium that drives a shock front directly in front of it

Question 72

What are the requirements for Propellants (5)

Answer 72

Give regular ballistics
not produce excessive flash or smoke
not cause undue erosion
be relatively easy ignited
be stable for storage under Worldwide conditions

Question 73

List the Ways for the Initiation of Explosives (8)

Answer 73

Direct heat
Percussion and Stabbing
Friction
Electrical Initiation
Shock Waves
Electromagnetic fields
Laser
Chemical Reaction

Question 74

What are the requirements for Explosives? (6)

Answer 74

Performance
Sensitivity
Stability and behaviour in storage
Water resistance
Consistency
Thermal behaviour

Question 75

What is Brisance

Answer 75

The shattering effect of explosives

Question 76

Regarding Blast Pressure, what is:

Dynamic Pressure?
Incident pressure?
Quasi-Static Pressure
Reflected Pressure

Answer 76

DP
Results from high wind velocity & increased density of the air behind the shock front
IP
Pressure exerted at right angles to the travel of the shock front
Q-S P
When an explosion occurs with a structure - overpressure eventually settles
RP
Instantaneous build-up of pressure occuring when a shockfront strikes a rigid surface

Question 77

1. Chemical Explosions must exhibit what? (4)

Answer 77

Rapid expansion
Evolution of heat
Rapidity of reaction
Initiation of reaction

Question 78

1. Disadvantages of FAE

Answer 78

FAE is dependent on weather conditions

Question 79

What is Mach stem?

Answer 79

Occurs when the reflected blast wave coiside wit hte original wave

Question 80

2. TA

Answer 80

Slides re: Atks on Pers, amr and a/c

Question 81

3. What are the general principles Regarding an A/C target? (2)

Answer 81

Types of A/C targets
- Fast, slow, Helo
Vulnerability
Parts of the A/C (8)

Question 82

3. A/C Damage Criteria: “Second Criteria” used by Industry ? (3)

Answer 82

F t -Flight Kill : a/c will be unable to fly within (t)
C t -Continuance Kill: a/c will be unable to continue with (t)
E t -Effectiveness Kill: a/c will be grounded for repair by (t)

Question 83

Classification of High Explosives. What are the 2 types; list 2 examples each

Answer 83

Primary Explosive: Very sensitive
Mercury Fulminate, Lead Azide, Lead Styphnate

Secondary Explosive: relatively insensitive
TNT, RDX

Question 84

6. Armour “Kill” types and descriptions (3)

Answer 84

K Kill - destroyed
Firepower Kill - Main armament and/or crew unable to operate the system
Mobility Kill - Vehicle unable to move due to running gear and/or engine disabled

Question 85

7. What are the design characteristics of HESH?

6 “must”

Answer 85

• Head must be collapsible
• Head must not be pointed
• HE must have a high VoD
• Explosive be plastic in nature
• Fuze must be in the base
• Inert bitumous pad in nose