GITNUX REPORT 2024

Exploring the Most Powerful Explosives: A Comprehensive Analysis Revealed

Unveiling the Most Powerful Explosive: Exploring the Deadly Capabilities and Properties Beyond Imagination.

Author: Jannik Lindner

First published: 7/17/2024

Statistic 1

Nitroglycerin has an oxygen balance of +3.5%

Statistic 2

TATB has a negative oxygen balance of -55.81%

Statistic 3

Azidoazide azide has 14 nitrogen atoms per molecule

Statistic 4

CL-20 has a molecular weight of 438.19 g/mol

Statistic 5

TNT has a nitrogen content of 18.5%

Statistic 6

PETN has a molecular formula of C5H8N4O12

Statistic 7

RDX has a molecular weight of 222.12 g/mol

Statistic 8

CL-20 has a nitrogen content of 38.3%

Statistic 9

PETN has an oxygen balance of -10.1%

Statistic 10

HMX has a molecular formula of C4H8N8O8

Statistic 11

RDX has a nitrogen content of 37.8%

Statistic 12

CL-20 has an oxygen balance of -11%

Statistic 13

TNT equivalence of 1 kg of PETN is 1.66

Statistic 14

TNT has a specific energy of 4.6 MJ/kg

Statistic 15

HMX has a TNT equivalence of 1.7

Statistic 16

HMX has a specific impulse of 265 seconds

Statistic 17

RDX has a brisance value of 130% of TNT

Statistic 18

Nitroglycerin has a specific energy of 6.7 MJ/kg

Statistic 19

TATB has a TNT equivalence of 1.17

Statistic 20

HNS has a specific impulse of 250 seconds

Statistic 21

Nitroglycerin has a brisance value of 128% of TNT

Statistic 22

Detonation velocity of PETN is 8,400 m/s

Statistic 23

HMX has a detonation pressure of 39 GPa

Statistic 24

RDX has a detonation temperature of 5,360 K

Statistic 25

CL-20 has a calculated detonation pressure of 45 GPa

Statistic 26

CL-20 has a detonation velocity of 9,400 m/s

Statistic 27

HMX has a detonation temperature of 4,370 K

Statistic 28

RDX has a calculated detonation pressure of 34.7 GPa

Statistic 29

TATB has a detonation velocity of 7,350 m/s

Statistic 30

RDX has a melting point of 205.5°C

Statistic 31

CL-20 has a crystal density of 2.04 g/cm³

Statistic 32

Nitroglycerin has a vapor pressure of 0.00025 mmHg at 20°C

Statistic 33

HMX has a crystal density of 1.91 g/cm³

Statistic 34

RDX has a solubility in water of 59.7 mg/L at 25°C

Statistic 35

Nitroglycerin has a boiling point of 50°C (decomposes)

Statistic 36

TATB has a crystal density of 1.93 g/cm³

Statistic 37

HMX has a solubility in water of 5 mg/L at 25°C

Statistic 38

HNS has a melting point of 318°C (with decomposition)

Statistic 39

Nitroglycerin has a crystal density of 1.6 g/cm³

Statistic 40

TATB has a solubility in water of <0.1 mg/L at 25°C

Statistic 41

TATB has an impact sensitivity of >50 J

Statistic 42

HNS has a friction sensitivity of >353 N

Statistic 43

PETN has an electrostatic sensitivity of 0.19 J

Statistic 44

PETN has a shock sensitivity of 3.0 mm (50% point)

Statistic 45

TNT has a friction sensitivity of 353 N

Statistic 46

HNS has an electrostatic sensitivity of 0.8 J

Statistic 47

CL-20 has an impact sensitivity of 4 J

Statistic 48

PETN has a friction sensitivity of 60 N

Statistic 49

TNT has an electrostatic sensitivity of 0.57 J

Statistic 50

HMX has a shock sensitivity of 0.6 mm (50% point)

Statistic 51

RDX has an impact sensitivity of 7.5 J

Statistic 52

Octanitrocubane has a theoretical density of 2.1 g/cm³

Statistic 53

Octanitrocubane has a calculated detonation velocity of 10,100 m/s

Statistic 54

Octanitrocubane has a calculated detonation pressure of 53 GPa

Statistic 55

Octanitrocubane has a calculated heat of formation of 480.5 kJ/mol

Statistic 56

Octanitrocubane has a calculated oxygen balance of 0%

Statistic 57

HNS has a heat of formation of 17.9 kcal/mol

Statistic 58

PETN has a heat of detonation of 6.12 kJ/g

Statistic 59

HNS has a decomposition temperature of 318°C

Statistic 60

Nitroglycerin has a heat of combustion of -1580 kcal/mol

Statistic 61

TATB has a heat of detonation of 3.49 kJ/g

Statistic 62

TNT has a heat of formation of -67 kJ/mol

Statistic 63

HNS has a heat of combustion of -7245 kJ/mol

Statistic 64

PETN has a heat of formation of -538.5 kJ/mol

Statistic 65

TNT has a heat of detonation of 4.48 kJ/g

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Summary

  • TNT equivalence of 1 kg of PETN is 1.66
  • Detonation velocity of PETN is 8,400 m/s
  • Octanitrocubane has a theoretical density of 2.1 g/cm³
  • HMX has a detonation pressure of 39 GPa
  • RDX has a melting point of 205.5°C
  • CL-20 has a crystal density of 2.04 g/cm³
  • Nitroglycerin has an oxygen balance of +3.5%
  • TATB has a negative oxygen balance of -55.81%
  • Azidoazide azide has 14 nitrogen atoms per molecule
  • HNS has a heat of formation of 17.9 kcal/mol
  • PETN has a heat of detonation of 6.12 kJ/g
  • TNT has a specific energy of 4.6 MJ/kg
  • HMX has a TNT equivalence of 1.7
  • RDX has a detonation temperature of 5,360 K
  • CL-20 has a calculated detonation pressure of 45 GPa

Unleash the explosive power of knowledge with a bang! In a world where numbers speak louder than words, we delve into the explosive realm of detonation velocities, shock sensitivities, and brisance values to uncover the most powerful explosives known to mankind. From the TNT equivalence of PETN to the impact sensitivity of RDX, prepare to be blown away by the sheer force of these chemical marvels. Buckle up, because this blog post is about to detonate your mind with explosive facts!

Chemical Composition

  • Nitroglycerin has an oxygen balance of +3.5%
  • TATB has a negative oxygen balance of -55.81%
  • Azidoazide azide has 14 nitrogen atoms per molecule
  • CL-20 has a molecular weight of 438.19 g/mol
  • TNT has a nitrogen content of 18.5%
  • PETN has a molecular formula of C5H8N4O12
  • RDX has a molecular weight of 222.12 g/mol
  • CL-20 has a nitrogen content of 38.3%
  • PETN has an oxygen balance of -10.1%
  • HMX has a molecular formula of C4H8N8O8
  • RDX has a nitrogen content of 37.8%
  • CL-20 has an oxygen balance of -11%

Interpretation

In the explosive world, it's not just about the bang but the chemical finesse behind it! From Nitroglycerin's surprisingly positive oxygen balance to Azidoazide azide's nitrogen party with 14 atoms per molecule, it's a chemistry class explosion. But watch out for TATB sulking with its negative oxygen balance and PETN sneaking in with its molecular formula game. With CL-20 topping the charts with both high nitrogen content and an oxygen deficit, it's like the rockstar of the explosive scene. Remember, in this explosive game of numbers, it's not just about the weight, but the volatile chemistry that really packs a punch!

Explosive Power

  • TNT equivalence of 1 kg of PETN is 1.66
  • TNT has a specific energy of 4.6 MJ/kg
  • HMX has a TNT equivalence of 1.7
  • HMX has a specific impulse of 265 seconds
  • RDX has a brisance value of 130% of TNT
  • Nitroglycerin has a specific energy of 6.7 MJ/kg
  • TATB has a TNT equivalence of 1.17
  • HNS has a specific impulse of 250 seconds
  • Nitroglycerin has a brisance value of 128% of TNT

Interpretation

In the explosive world, numbers and acronyms explode with power! It's a mathematical minefield where 1 kg of PETN is as potent as 1.66 kg of TNT and HMX boasts a TNT equivalence of 1.7. Specific energies of 4.6 MJ/kg for TNT and 6.7 MJ/kg for Nitroglycerin make them prime players in the energy game, while RDX ups the ante with a brisance value 130% of TNT. TATB and HNS bring their own bang to the table with TNT equivalences and specific impulses, showing that in this explosive arena, numbers aren't just figures - they're the key to unlocking a powerful blast!

Explosive Properties

  • Detonation velocity of PETN is 8,400 m/s
  • HMX has a detonation pressure of 39 GPa
  • RDX has a detonation temperature of 5,360 K
  • CL-20 has a calculated detonation pressure of 45 GPa
  • CL-20 has a detonation velocity of 9,400 m/s
  • HMX has a detonation temperature of 4,370 K
  • RDX has a calculated detonation pressure of 34.7 GPa
  • TATB has a detonation velocity of 7,350 m/s

Interpretation

In the explosive world of detonation statistics, it's a neck-and-neck race among PETN, HMX, RDX, and CL-20, with each wielding their own impressive arsenal of destructive capabilities. From mind-blowing detonation velocities to pressure that could make your head spin, these compounds aren't just setting off fireworks, they're rewriting the explosive playbook. And let's not forget about TATB, calmly sitting back with its not-so-shabby detonation velocity, quietly reminding us that sometimes subtlety can be just as powerful as a big bang. So next time you hear a "boom," remember, it's not just noise—it's a symphony of science at its most explosive.

Physical Properties

  • RDX has a melting point of 205.5°C
  • CL-20 has a crystal density of 2.04 g/cm³
  • Nitroglycerin has a vapor pressure of 0.00025 mmHg at 20°C
  • HMX has a crystal density of 1.91 g/cm³
  • RDX has a solubility in water of 59.7 mg/L at 25°C
  • Nitroglycerin has a boiling point of 50°C (decomposes)
  • TATB has a crystal density of 1.93 g/cm³
  • HMX has a solubility in water of 5 mg/L at 25°C
  • HNS has a melting point of 318°C (with decomposition)
  • Nitroglycerin has a crystal density of 1.6 g/cm³
  • TATB has a solubility in water of <0.1 mg/L at 25°C

Interpretation

In the explosive world of statistics, these formidable contenders are not just hot air. With melting points that could make even steel sweat, crystal densities denser than your ex's excuses, and solubilities so low they make introverts look chatty, these compounds are the real heavy hitters. From RDX to CL-20, Nitroglycerin, HMX, TATB, and HNS, they're not just blowing smoke - they're melting, crystallizing, and decomposing their way into the spotlight of explosively fascinating science. So next time you hear a bang, remember it's not just sound waves - it's these statistical powerhouses making their presence felt, one impressive property at a time.

Safety and Sensitivity

  • TATB has an impact sensitivity of >50 J
  • HNS has a friction sensitivity of >353 N
  • PETN has an electrostatic sensitivity of 0.19 J
  • PETN has a shock sensitivity of 3.0 mm (50% point)
  • TNT has a friction sensitivity of 353 N
  • HNS has an electrostatic sensitivity of 0.8 J
  • CL-20 has an impact sensitivity of 4 J
  • PETN has a friction sensitivity of 60 N
  • TNT has an electrostatic sensitivity of 0.57 J
  • HMX has a shock sensitivity of 0.6 mm (50% point)
  • RDX has an impact sensitivity of 7.5 J

Interpretation

In a world where sensitivity can be explosive, these statistics paint a vivid picture of the power wielded by some of the most renowned explosives. From TATB's nonchalant impact sensitivity to PETN's finicky friction levels and TNT's zesty electrostatic tendencies, each explosive has its own unique personality. One cannot help but marvel at HMX's delicate shock sensitivity or RDX's bold impact threshold. It's a dangerous dance of sensitivities out there, where even the slightest nudge can lead to earth-shattering consequences. So, to all the explosives out there, remember: with great sensitivity comes great responsibility.

Theoretical Explosives

  • Octanitrocubane has a theoretical density of 2.1 g/cm³
  • Octanitrocubane has a calculated detonation velocity of 10,100 m/s
  • Octanitrocubane has a calculated detonation pressure of 53 GPa
  • Octanitrocubane has a calculated heat of formation of 480.5 kJ/mol
  • Octanitrocubane has a calculated oxygen balance of 0%

Interpretation

With a density that could make a diamond jealous, detonation speed faster than your WiFi connection, and a pressure that would make even the calmest of molecules anxious, octanitrocubane is not your average party trick explosive. Its heat of formation could warm a chemistry teacher's heart, all while maintaining a balanced diet of oxygen at a cool 0%. One might say octanitrocubane is the explosive equivalent of a high-maintenance diva: powerful, precise, and always ready to make a big bang.

Thermodynamic Properties

  • HNS has a heat of formation of 17.9 kcal/mol
  • PETN has a heat of detonation of 6.12 kJ/g
  • HNS has a decomposition temperature of 318°C
  • Nitroglycerin has a heat of combustion of -1580 kcal/mol
  • TATB has a heat of detonation of 3.49 kJ/g
  • TNT has a heat of formation of -67 kJ/mol
  • HNS has a heat of combustion of -7245 kJ/mol
  • PETN has a heat of formation of -538.5 kJ/mol
  • TNT has a heat of detonation of 4.48 kJ/g

Interpretation

In the explosive world of chemical compounds, the battle for supremacy is as fierce as a detonation. HNS struts its stuff with an impressive heat of formation, while PETN boasts a detonation heat that packs a punch. With decomposition temperatures and combustion heats vying for attention, it's a veritable fireworks display of data. The explosive personalities of these compounds may differ, but one thing is clear - in the volatile arena of chemical reactions, there's no room for second best.

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