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Solvent health hazards

Pu (86 years) is formed from Np. Pu is separated by selective oxidation and solvent extraction. The metal is formed by reduction of PuF with calcium there are six crystal forms. Pu is used in nuclear weapons and reactors Pu is used as a nuclear power source (e.g. in space exploration). The ionizing radiation of plutonium can be a health hazard if the material is inhaled. [Pg.318]

Mineral spirits, a type of petroleum distillate popular for use in solvent-based house paints, consist mainly of aUphatic hydrocarbons with a trace of aromatics. This type of solvent finds use in oil- and alkyd-based house paints because of its good solvency with typical house paint binders and its relatively slow evaporation rate which imparts good bmshabiUty, open-time, and leveling. Other properties include lower odor, relatively lower cost, as well as safety and health hazard characteristics comparable to most other organic solvents. [Pg.541]

Health Hazards Information - Recommended Personal Protective Equipment Self-contained or airline breathing apparatus solvent-resistant rubber gloves chemical splash goggles Symptoms Following Exposure Inhalation causes impairment of coordination, headache. Contact with liquid causes mild irritation of eyes and skin. Ingestion causes irritation of mouth and stomach General Treatment for Exposure INHALATION remove victim from contaminated area administer artificial respiration if necessary call physician. SKIN wipe off liquid wash well with soap and water. INGESTION induce... [Pg.101]

Many very hazardous solvents, such as benzene and carbon tetrachloride, were widely used until the 1970s. The situation was very similar for the use of pesticides. Among the toxic pesticides that were still in wide use 20 years ago were chlorophenols, DDT, lindane, and arsenic salts, all of which are classified as human carcinogens as well as being acutely toxic. Fortunately, use of these kinds of very toxic chemicals is now limited in the industrialized world. However, because the number of chemicals used in various industries continues to increase, the risks of long-term health hazards due to long-term exposure to low concentrations of chemicals continues to be a problem in the workplace. [Pg.250]

GHB has been used both for legitimate clinical and chnical research purposes and for a range of iUicit purposes. It was marketed legally in the United States until 1990, when the U.S. Food and Drug Administration (FDA) banned its sale to consumers. Except for the one indication described later in this section, GHB is a Schedule I controlled substance without other FDA-approved indications. The FDA has also declared y-butyrolactone (GBL) as a List I chemical and 1,4-butanediol (1,4-BD) as a Class I health hazard, practically designating these GHB precursors, which are also industrial solvents, as illicit and unapproved new drugs (National Institute on Drug Abuse 2000). [Pg.244]

Common gases such as oxides of carbon and nitrogen, hydrogen sulphide, and inert gases. Liquids which pose a health hazard due to volatilization, e.g. mercury and degreasing with chlorinated solvent, i.e. dry cleaning with perchloroethylene or metal cleaning with trichloroethylene. [Pg.147]

The majority of us are exposed to low levels of solvents every day. Millions of workers around the world are exposed to high levels of solvents on a daily basis that can adversely affect health. Workers often come in contact with more than one solvent during a day s work. Health hazards from solvent exposure range from mild to life threatening, depending on the compound involved and the level and... [Pg.138]

Among the separation techniques, liquid-liquid (solvent) extraction is one of the best-known, well-established, versatile, and easy to use. However, traditional extraction employs conventional organic solvents immiscible with water, which are typically volatile, flammable, and health hazardous. This makes extraction inappropriate for modern and future environmental-friendly technologies and analysis processes. Another problem with conventional solvents is that their number is rather limited, so it may be difficult to find fhe solvenf ideally suifed for a particular application (even considering solvent mixtures). [Pg.243]

Flavoring substances are used to compose special tastes, e.g., strawberry. When flavor compounds are added to foods, no health hazards should arise from the concentration used. The flavor contains flavoring substances and solvents or carriers the concentration of a single flavoring substance in the food does not usually exceed 10-20 ppm. Because of the taste and smell of the substances, high concentrations cannot be used, i.e., flavoring substances are self-limiting. [Pg.229]

More abrasion and solvent resistant than the traditional inks. Friendly to environment, practically no health hazards. [Pg.158]

Fully cured polyurethanes present no health hazard they are chemically inert and insoluble in water and most organic solvents. Dust can be generated in fabrication, and inhalation of the dust should be avoided. Polyether-based polyurethanes are not degraded in the human body, and are therefore used in biomedical applications. Some of the chemicals used in the production of polyurethanes, such as the highly reactive isocyanates and tertiary amine catalysts, must be handled with caution. The other polyurethane ingredients, polyols and surfactants, are relatively inert materials having low toxicity. [Pg.1656]

Benzene, along with other light high-octane aromatic hydrocarbons such as toluene and xylene, is used as a component of motor gasoline. Benzene is used in the manufacture of styrene, ethylbenzene, cumene, phenol, cyclohexane, nitrobenzene, and aniline. It is no longer used in appreciable quantity as a solvent because of the health hazards associated with it. [Pg.79]

Although Class 3 solvents have no known human health hazards at levels normally found in drug products, generally corresponding with a level of <0.5% in the API, the solvents in Class 2 need to be controlled at levels which are less, sometimes substantially less, than those allowed for Class 3 solvents. The level of Class 2... [Pg.125]

Some of the solvents that are commonly used in epoxy resins can present a flammability hazard and special health hazards. Contact with solvents will cause drying of the skin, which may result in an increased probability of skin irritation, especially when one comes in contact with curing agents. Solvents also have the ability to dissolve epoxy resin system components and carry them through the skin in liquid form or into the respiratory system in vapor form. The inhalation of solvent vapors or mist may cause respiratory irritation and... [Pg.114]

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See also in sourсe #XX -- [ Pg.143 ]



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