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Under specific types applications

Statistical Methods for Nonelectronic Reliability, Reliability Specifications, Special Application Methods for Reliability Prediction Part Failure Characteristics, and Reliability Demonstration Tests. Data is located in section 5.0 on Part Failure Characteristics. This section describes the results of the statistical analyses of failure data from more than 250 distinct nonelectronic parts collected from recent commercial and military projects. This data was collected in-house (from operations and maintenance reports) and from industry wide sources. Tables, alphabetized by part class/ part type, are presented for easy reference to part failure rates assuminng that the part lives are exponentially distributed (as in previous editions of this notebook, the majority of data available included total operating time, and total number of failures only). For parts for which the actual life times for each part under test were included in the database, further tables are presented which describe the results of testing the fit of the exponential and Weibull distributions. [Pg.87]

Specific designs are best obtained from manufacturers offering tbis type of equipment or from specific curves applicable to the units under study. [Pg.269]

Admixtures should be purchased under specifications that stipulate the desired properties, exclude adverse effects and provide evaluation of uniformity of the admixture from batch to batch. The user should ensure that the admixtures being considered conform to ASTM or other applicable specifications and the manufacturer of the admixture should be required to certify that individual lots meet the requirements of applicable standards or specifications. The following information should be provided by the admixture manufacturer or supplier (1) composition of the admixture in terms of the generic type of its main constituents (2) incompatibility with other admixtures or special cements (3) typical dosage (4) detrimental effects of overdosage or underdosage (5) chloride content and (6) whether air is entrained at the recommended dosage. [Pg.516]

NMR has been an integral part of the chemist s analytical toolbox for decades. The most common and fundamental experiment is the one-dimensional (ID) H experiment. The relatively high sensitivity of the H nucleus makes this a very useful start, but for a complex molecule the ID spectrum can be crowded and often uninterpretable. In these cases more advanced techniques can be used to provide increased resolution and specific types of structural information. In this section we will describe a range of NMR techniques from the simplest ID experiments to complex multidimensional, multinuclear experiments. The focus of this section will be on the general principles underlying these experiments and their applications to molecules of pharmaceutical interest. Further details on these experiments can be found in the references. [Pg.3444]

The containers must correspond to those reflected in Annexure 1 (presentation), 10 (stability data) and 11, the description of the packaging procedure, except that the description given under the presentation in Annexure 1 need not include the specific type of material of the container (e.g., Bottles of 100 should suffice). Recently applicants have sometimes been requested to specify the con-... [Pg.657]

The physical, chemical and hazardous properties of a number of highly toxic or flammable substances that were in the past or being currently used in the warfare have been discussed in detail in several chapters in this book. Some of these compounds are further discussed under specific chapters, such as. Sulfur Mustards, Nerve Gases, Dioxin and Related Compounds and Napalm. These and many other compounds are in most cases grouped together in this book based on their chemical structures along with their toxic or flammable properties. Presented below is a brief discussion on various types of chemicals weapons developed for military applications. Explosive substances have been omitted from this section. They are discussed separately in this book under topics such as Explosive Characteristics of Chemical Substances, Nitro Explosives, Oxidizers and Organic Peroxides and also under specific title compounds in various chapters. [Pg.80]

While determination of the type of apatite and reactivity of a phosphate rock may give an indication of the potential for direct application, many other factors are Involved. These factors include type of crop flong or short term), soil pH and other soil characteristics, and climatic factors. Agronomic testwork is needed to determine the potential for direct application under specific conditions or a range of conditions. [Pg.99]

Specific types of polymer micropatterns were made of crosslinked and uncrosslinked poly(methacrylic acid) and poly(N-isopropyl acrylamide) or polyNI-PAM. Also, the spacer material between the Si wafers was adjusted to hundreds of micrometers, allowing for a single-exposure high aspect ratio microlithography of theses polymers. Also, since these polymers under go LCST behavior during polymerization conditions, they are suitable as thermoreversible gels during application. [Pg.247]


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See also in sourсe #XX -- [ Pg.942 ]




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Applications types

Specific applications

Under-application

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