Tegdn, sensitivity reducing ingredient for nitrocellulose based propellants
TEGDN, Sensitivity reducing ingredient for nitrocellulose based Propellants
Jaana Suuronen, EURENCO Vihtavuori, Ruutitehtaantie 80, FI-41330 VIHTAVUORI,
1. Background
Nitroglycerin is an important and widely used component of explosive materials. In double base
propellants it is a main component in addition to nitrocellulose and stabilizers. However,
Nitroglycerin is dangerous to handle. It is very sensitive to shock, temperature, and friction.
Because of the safety aspects it is essential to find a substitute to Nitroglycerin. EURENCO
Vihtavuori has nitrated ester manufacture. We also have capability to manufacture a more safe
type of nitrate ester, TEGDN (Triethyleneglycol Dinitrate). One of the many advantages of
TEGDN is its insensitiveness to detonation. TEGDN is also superior to Nitroglycerin being
capable of withstanding cold temperature.
2. TEGDN manufacture
TEGDN was first prepared at 1863 by Leurenco. At World War II it was nitrated by Germans
and Italians and used as plasticizer in double base propellants. TEGDN is manufactured by
nitrating TEG, Triethylene Glycol under controlled conditions with Mixed Acid. The critical point
in production process is Spent Acid treatment. TEGDN is highly soluble in Spent Acid (~9 %)
and is relatively unstable. Safe Spent Acid treatment is important to ensure safe conditions for
manufacture. Process at EURENCO Vihtavuori is continuous Biazzi process production
3. Properties
Chemical properties of TEGDN are listed in the Table 1. Nitrogen content is lower since there
is one less nitrate group compared to Nitroglycerine. In Table 2 are listed the physical
properties and in Table 3 Explosive properties.
1 Development study for improvement of the manufacturing process for trietyhylene glycoldinitrate (TEGDN), Propellex Chemical Division, 1961, p. 6
2 Meyer, R., Explosives, 6th Ed. 2007, p. 344
Table 1. Chemical properties of TEGDN compared to Nitroglycerine Chemical Property T E G D N Nitroglycerine Chemical Structure Chemical name CAS number Molecular weight Nitrogen content Oxygen balance Table 2. Physical properties of TEGDN compared to Nitroglycerine Physical Property Nitroglycerine Appearance Specific Gravity
1,591 g/cm3 +13,2ºC stable modification
Solidification Point Boiling Point Decomposition temperature Flash Point Viscosity at 20ºC Vapour pressure
TEGDN has solidification point at -19ºC. This is remarkably lower than Nitroglycerine, which
has its stable modification at +13.2ºC. In addition to low temperatures, TEGDN can also be
used at higher temperatures than Nitroglycerine. Nitroglycerin starts to decompose at
temperature 50-60ºC. TEGDN has decomposition temperature of 228ºC. TEGDN is less
volatile than DEGDN (Diethyleneglycol Dinitrate).
3 TM 9-1300-214, Military Explosives, 1984, p. 8-9
4 Bofors, Analytical methods for powders and explosives, 1960 p. 163
5 Meyer, R., Explosives, 6th Ed, 2007, p. 344
Table 3. Explosive properties of TEGDN compared to Nitroglycerin Explosive Property Nitroglycerine Explosion Temperature (5 s) Detonation gas volume Detonation velocity Heat of Explosion Impact Sensitivity Lead Block Test Vacuum stability Heat test, 100ºC first 48 h second 48 h Friction pendulum test Steel shoe Fibre shoe Critical diameter (steel sleeve test) Card Gap test
Thermal stability at 100ºC indicates TEGDN is considerably much less sensitive to temperature
than Nitroglycerin. TEGDN is insensitive to detonation. No detonation occurs in samples placed
in relatively light steel tubing with diameter of 3.175 cm at a density of 1.33 g/cm3. When
heavily confined, the detonation velocity is less than 2000 m/s. TEGDN is unaffected in the
pendulum friction test with the metal and fiber shoe. Impact resistance is much better than for
Nitroglycerine. The Bureau of Mines impact test indicates a sensitivity of over 100 centimetres. 4. Applications
TEGDN can be applied as a plasticizer in solid propellant formulations used in guns, rockets,
air launched tactical motors, powering missiles, explosives, ground launched interceptors and
space boosters. TEGDN very potential ingredient for IM Technology applications due to its
insensitiveness to detonation, shock and temperature. EURENCO has tested TEGDN as a
component in multi base propellant application, Modular Charge system. Results are
6 TM 9-1300-214, Military Explosives, 1984, p. 8-26
5. Toxicity
TEGDN is toxic as other nitrated explosive oils like Nitroglycerin and DEGDN. The toxicological
properties of aliphatic nitrates are similar, differing only in intensity, onset and duration of
effect. In the Table 4 are listed toxicity values of TEGDN and Nitroglycerine.
Table 4. Toxicity values of TEGDN and Nitroglycerine. Toxicity Nitroglycerine LD50, intraperitoneal, mouse LD50, oral, mouse LD, skin, rabbit LD50, intraperitoneal, rabbit LD50, oral, rat LD50, subcutaneous, rat American Industrial Hygiene Association Journal. Vol. 34, Pg. 526, 1973. Acute Toxicity Data. Journal of the American College of Toxicology, Part B. Vol. 12, Pg. 606, 1993. Acute Toxicity Data. Journal of the American College of Toxicology, Part B. Vol. 12, Pg. 604, 1993. American Industrial Hygiene Association Journal. Vol. 34, P. 526, 1973. American Industrial Hygiene Association Journal. Vol. 34, P. 526, 1973. American Industrial Hygiene Association Journal. Vol. 34, P. 526, 1973 Iyakuhin Kenkyu. Study of Medical Supplies. Vol. 13, Pg. 90, 1982. Yakuri to Chiryo. Pharmacology and Therapeutics. Vol. 13, Pg. 3649, 1985 Drugs in Japan Vol. -, Pg. 786, 1990. Drugs in Japan Vol. -, Pg. 786, 1990 Yakuri to Chiryo. Pharmacology and Therapeutics. Vol. 13, Pg. 3649, 1985. Yakuri to Chiryo. Pharmacology and Therapeutics. Vol. 13, Pg. 3649, 1985
The Threshold Limit Value has not been established for TEGDN. A worker's exposure to
TEGDN shall be minimized at all time. Exposure to TEGDN can occur through inhalation,
ingestion, eye or skin contact, and absorption through the skin.
6. Summary
Because of its chemical and thermal stability, impact, shock and friction resistance, TEGDN is
a promising ingredient to give reduced sensitivity for Nitrocellulose based propellants. The use
of TEGDN can be applied to reach International Safety and IM-targets. TEGDN is applicable as
an energetic plasticizer in propellants and in castable insensitive energetic compositions.
Compared to Nitroglycerin, TEGDN is less sensitive to shock. In fact, TEGDN is characterized
by a wholly insignificant sensitiveness to shock. Its chemical stability is better than that of
Nitroglycerin or Nitrocellulose. TEGDN is also less sensitive to temperature than Nitroglycerin.
TEGDN is relatively safely handled compared to Nitroglycerin. Detonation gas volume of
TEGDN is higher than that of Nitroglycerin and heat of detonation smaller. Advantage is taken
in the manufacture of flashless and non-erosive low calorific smokeless powder.
7 HAZARDS OF CHEMICAL ROCKETS AND PROPELLANTS HANDBOOK, solid rocket propellant processing, handling, storage and transportation, Vol II, 1972, p. 3-22
7. References
Bofors, Analytical methods for powders and explosives, 1960
- Development study for improvement of the manufacturing process for trietyhylene
glycoldinitrate (TEGDN), Propellex Chemical Division, 1961
EURENCO Vihtavuori, own R&D projects
Hazards of Chemical rockets and propellants handbook, solid rocket propellant processing, handling, storage and transportation, Vol II, 1972
- Safety manual AMC-R 385-100, Department of the Army Headquarters, United States
TM 9-1300-214, Military Explosives, 1984, pages 8-22, 8-25, 8,26
Urbanski, Chemistry and technology of explosives, Volumes II and IV
- Wildlife Toxicity Assessment for NITROGLYCERIN (NG), USACHPPM Document No: 37-
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