Power liquids

The very powerful liquid oxidant explodes when vigorously shaken, or immediately on contact with alcohol, ether, aniline or grease. It is also sensitive in the vapour or solid state (but see reference 3 above). 

Mixtures of the salt (80%) and amine (15%) with water are useful as an impact-insensitive but powerful liquid explosive. 

HOT HPLC Hawaii Ocean Time-series High power liquid chromatography... 

Ref VanGelder Schlatter(1927), 453 465 Americanite. A very powerful liquid expl invented in 1890 by Smolianinoff and tried successfully in the US for loading shells up to 203 mm. There were no prematures at a muzzle velocity of 65.4 m/sec. The expl consisted of NG 80 to 97 and a liq alcohol 20 to 3%... 

In designing the accessories and choosing an injection and extrusion installation for low-pressure moulding1, it is important to evaluate the design procedure for determining the channel resistance to non-Newtonian liquid flow. Practically simple and convenient design procedures for pressure losses and hydraulic resistance of non-round channels for power liquids and liquids described by the three-parameter model may be found, e.g. in 68,69). 

Coal Technology for Power, Liquid Fuels, and Chemicals... 

Swedish inventors Emmanuel Nobel and his son Alfred took an interest in this powerful liquid explosive and produced it commercially in 1862. However, its transportation and its handling were very hazardous, and eventually Alfred Nobel discovered that NG absorbed into a granular type of material (kieselguhr) was still explosive, but was much safer to handle and use than the straight liquid. This new invention, called dynamite, was difficult to ignite by the usual methods used for pure NG. Therefore, also in 1867, Alfred Nobel devised the blasting cap using mercury fulminate. With this development dynamite became the foundation of the commercial explosives industry. 

Imidazoline derivative. Powerful liquid cationic softener especially effective on nylon tricot knits. Excellent antistatic qualities. Is suitable for solvent applications. 

CCC systems. The capabilities of the technique could be of great help in many industrial processes such as classical extraction, purification, and separation of fragile compounds, as well as novel use of a CCC system as a powerful liquid-liquid reactor. 

Powerful liquid explosives mixtures of nitrobenzene and liquid O4 were also known and in some use (Vol. Ill, p. 289). Recently pyrolysis of nitrobenzene was examined in the range of 275—630 C (3).. At lower temperatures nitrobenzene decomposes via direct rupture of the C-N bond to give free radicals C Hs and N02. As the temperature was raised the yield of NOj considerably decreased and at 625 C the volatile products were composed of ... 

In the 1850s, Nobel began experimenting with nitroglycerin (ni troh GLIHS or ohn)—a powerful liquid explosive. Since... 

In this process phase inversion is introduced by lowering the temperature of the polymer solution. A polymer is mixed with a substance that acts as a solvent at a high temperature and the polymer solution is cast into a film. When the solution is cooled, it enters into an immiscible region due to the loss of solvent power. Liquid-liquid demixing occurs and the solution is separated into two phases, i.e., the polymer-lean phase is dispersed as droplets in the polymer-rich phase. Further, cooling causes gelation of polymer. Because the solvent is usually nonvolatile, it must be removed with a liquid that is miscible with the solvent but not miscible with the polymer. The membranes made by the TIPS method have pore sizes in the range of 0.1 and 1 pm and the pore structure is uniform in the depth direction. ... 

In 1974, high powerful liquid/solid explosives with 75 % gasoline and 25 % carbon stone were developed in France. When the projectile contacts with an objective, acetylene gas is formed. Under function of an ignition mbe, a massive blast takes place. The blast would not only destroy the objective, but also cause extensive bums [15]. 

Difficult wiring, e.g., for electrical power, liquids, and signal transmission... 

High-powered jets of liquid or powder have been used to penetrate the skin, displacing small amount of skin tissue. Compressed gas and spring-powered liquid jet devices that penetrate completely through the skin and to depths of more than 1 cm are commercially available. Laser ablation systems that penetrate the skin have also been commercialized. Ablation of the... 

Based on the generation of a temperature pattern by dissipation of power, liquid crystals can be employed to detect faults in electronic devices. The liquid crystalline material is painted on the surface of the device and the device is then switched on. The defective areas are clearly indicated by the change in color of the liquid crystal film at the points of excessive thermal stress. This technique is particularly useful for locating faults in solid state devices, especially integrated circuits [15]. 

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