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Productivity classification INDEX

Only since the end of World War II does there seem to have been a general realization of this disorder. Several classifications of subject matter have been prepared, the most thoroughly detailed system of documentation being that proposed by Mikulaschek to the Office International du Cacao et du Chocolat in 1949 51). Based on the Dewey decimal system, it covers confectionery and other allied products as well. It has not yet been accepted by the industry, which seeks something simpler.. Its classification index numerals frequently run to twelve and fourteen integers. Further study, possibly with the F d ration Internationale de Documentation at the Hague, may improve it. It is at present available in French and German. [Pg.289]

Processing production of coal sample and physical mechanic parameters test are in strict accordance with the provisions of Measurement method of coal and rode physical and mechanical properties (GB/T 23561-2009), and Measurement method of coal seam impact tendency classification index (MT/T 866-2000). The experiment determined natural apparent density, compressive strength, consistent coefficient, elastic modulus, deformation modulus, wave velocity, rock burst energy index, elastic energy index, dynamic failure time, and other parameters. The determination results as shown in Table 1. [Pg.258]

Nonmetallic Mineral Products Industry Indexes http //minerals.usgs.gov/minerals/pubs/ imii/ (accessed July 11, 2010). The USGS has prepared leading and coincident indexes for the Nonmetallic Mineral Products Industry (NAICS 327). The former name for this industry was the Stone, Clay, Glass, and Concrete Products Industry (SIC 32) under the Standard Industrial Classification (SIC) system. The SIC has been replaced by the North American Industry Classification System (NAICS). These indexes are similar to the ones in Metal Industry Indicators. The latest report for these indexes, November 2004, is available in PDF format. Historical data for these new indexes are available back to 1948. See also the section on Statistics for a discussion on the Statistical Compendium (U.S. Bureau of Mines) and the USGS Commodity Statistics and Information. [Pg.443]

Pigments are classified by an internationally recognised convention, published in the International Colour Index by the Society of Dyers and Colourists in Bradford, in association with the American Association of Textile Chemists and Colorists. The Index issues a generic name to chemically identical products (e.g., titanium dioxide is classified as C.I. Pigment White 6). Where structures are known, pigments are also given a constitution number (e.g., titanium dioxide has the constitution number Cl 77891).This number is reserved for the essential colorant, other ingredients, such as the carriers used in a masterbatch, do not affect this classification. [Pg.18]

This chapter includes four indices the Alphabetical index, the Chemical Abstract Service (CAS) numbers index, the International Classification of Diseases, 10th Revision (ICD-10) numbers index, and the Organization for the Prohibition of Chemical Weapons key (OPCW) numbers index. OPCW numbers are found in the "Handbook on Chemicals, version 2002," Appendix 2 in Declaration Handbook 2002 for the Convention on the Prohibition of the Development, Production, Stockpiling, and Use of Chemical Weapons and on their Destruction. OPCW numbers were developed to provide an easy method for tracking chemical warfare agents and precursors if CAS numbers were not available. [Pg.617]

Waiver of in vivo bioequivalence studies for major post approval manufacturing changes for the BCS Class I (Biopharmaceutics Classification System highly soluble, highly permeable and rapidly dissolving) solid oral products is NOT recommended for narrow therapeutic index drugs (17). [Pg.504]

The Colour Index assigns Cl generic names to commercial dyes. This Cl name is defined as a classification name and serial number which when allocated lo a commercial product allows that product to be uniquely Identified within any Colour Index Application Class." This enables the particular commercial products to be classified along with other products whose essential colorant has the same chemical constitution. [Pg.527]

Hazard potential for each effluent was calculated using a mathematical formula (the PEEP index) proposed by Costan et al. (1993). This formula integrates the ecotoxic responses of the battery of tests before and after a biodegradation step. Toxicity test endpoint responses are first transformed to toxic units. The product of effluent toxicity and effluent flow (m3/h) gives the toxic loading value. The log 10 value of an effluent s toxic loading corresponds to its PEEP index. In order to rank the effluents a toxicity classification scale is generated (Tab. 11). [Pg.249]

The classification of linings in the U.S. model building codes is based on the FSI and SDI (smoke developed index). The latter is based on the area under the light transmission versus time curve normalized to the area for red oak flooring, which by definition has an SDI of 100. There are three classes Class A for products with FSI < 25, Class B for products with 25 < FSI < 75, and Class C for products with 75 < FSI < 200. In all cases, the SDI must be 450 or less. Class A products are generally permitted in enclosed vertical exits. Class B products can be used in exit access corridors and Class C products are allowed in other rooms and areas. [Pg.369]

Chemometric methods such as analysis of correlation coefficients, cluster analysis or neural network analysis are used, for example, in the classification of fragments of glass on the basis of their elemental composition or refractive index. Such methods allow the test material to be classified into the appropriate group of products on the basis of the measured parameter. [Pg.291]

Victorian brown coal occurs in five major lithotypes distinguishable by color index and petrography. Advantage has been taken of a rare 100 m continuous core to compare and contrast chemical variations occurring as a function of lithotype classification. For many parameters there is a much greater contrast between the different lithotypes than there is across the depth profile of (nearly) identical lithotypes. Molecular parameters, such as the distributions of hydrocarbons, fatty acids, triterpenoids and pertrifluoroacetic acid oxidation products, together with gross structural parameters derived from IR and C-NMR spectroscopic data, Rock-Eval and elemental analyses and the yields of specific extractable fractions are compared. [Pg.109]

Solid Fat Index. This analysis has become the most important criterion for the melting behavior and crystalline structure of fats and oils products. It determines the proportion of solid and liquid materials at a given temperature. The solid fat index (SFI) analysis is an empirical measure of the solid fat content. It is calculated from the specific volume at various temperatures using a dilatometric scale graduated in units of milliliters times 1000. Values for the solid contents are usually determined at 50°F, 70°F, 80°F, 92°F, and 104°F or 10°C, 21.1°C, 26.7°C, 33.3°C, and 40°C. Unlike the tropical oils, cottonseed and the other oleic- and lino-leic-classification oils do not contain any significant quantity of triglycerides made up of two or three saturated fatty acids therefore, the solid fat index at the lowest temperature usually measured would have minimal values. Natural cottonseed oil can have a solid fat index content at 50°F or 10°C but not at the higher temperature measurements. [Pg.838]

Calcium hydroxide is a product new to the market. There have been, in past, positive scientific reports of its usefulness. The benefits of calcium hydroxide over calcium carbonate are its functionality, particle shape (more spherical and thus less abrasive to the equipment) (Figure 2.18), its lower density (decreases the density of product and lowers the price), a refractive index closer to many polymers, and its lower cost (approximately half of the price of calcium carbonate). The manufacturing equipment includes an excitement chamber, metered conveying, pneumatic transportation, flash drying, classification, and silo storage. The manufacturer delivers product to customers by its own silo-trucks. [Pg.58]


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