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Material selection property data

This book is designed as a handy desk reference covering fundamental engineering principles of project planning schemes and layout, corrosion principles and materials properties of engineering importance. It is intended as a general source of typical materials property data, useful for first pass materials selection in process design problems. [Pg.196]

Table 3-1 gives typical mechanical property data for four materials, the exact values of which are unimportant for this discussion. Aluminum and mild steel have been used as representative metals and polypropylene (PP) and glass fiber-TS polyester reinforced plastics (GRP) as representative plastics. Higher-performance types could have been selected for both the metals and plastics, but those in this table offer a fair comparison for the explanation being presented. [Pg.135]

CAMPUS uses a uniform database structure and uniform interface for all participating suppliers, with frequent updates of the property data. It allows preselection or screening of materials, suitable for specific applications, from a worldwide range of commercial plastics, while continuously being developed further with respect to its properties base. CAMPUS is based on two international standards for comparable data, that use meaningful properties based on unambiguous selection of specimen types... [Pg.594]

The first interactive electronic encyclopedia for users of plastics, materials selection is carried out using 3 search routines. The Chemical Resistance Search eliminates materials that cannot meet user specified chemical resistance requirements. The other search routines ( Elimination and Combined Weighting ) eliminate candidate materials based on 72 properties, falling within one of the following groups General and Electrical, Mechanical, Cost Factors, Production Methods and Post Processing. All data is evaluated and based on independent tests conducted in RAPRA s laboratories. [Pg.596]

Rubacams is a computer aided materials selection routine for elastomeric materials. Covering 99 generic types of rubber, each material is cross referenced with over 190 chemical agents and materials property data including physical, chemical mechanical and process related properties. Search results... [Pg.598]

Sources of data on costs were discussed in Chapter 6 and materials of construction in Chapter 7. This chapter covers sources of information on manufacturing processes and physical properties and the estimation of physical property data. Information on the types of equipment (unit operations) used in chemical process plants is given in Volume 2, and in the Chapters concerned with equipment selection and design in this Volume, Chapters 10, 11 and 12. [Pg.309]

A striking illustration of the effect of chemical structure on insecticidal properties is provided by the data given in this paper on compounds related to piperonyl butoxide. According to the above theory, the methylenedioxyphenyl nucleus present in this substance is the toxophore. The materials selected for comparison show the reduction in toxicity produced, first, by modifying the toxophore, and, second, by substituting different groups for the auxotox radical. [Pg.46]

Rapra have published their own chemical resistance data sheets [9, 10], based on results of tests at Rapra performed by a small team of operators. They are thus comparable one with another and their sources are known. Rapra s Plascams materials selection database provides durability properties on a ranking basis and their Plastics Design Guide includes Plascams and other useful programmes. In 2002 Rapra and Faraday Plastics have launched a new website of environmental stress cracking data (www.esc-plastics.com). [Pg.147]

B.W. Roberts, "Survey of Superconductive Materials and Critical Evaluation of Selected Properties Physical and Chemical Reference Data, 5 581-821 (1976), contains nearly 2000 references. [Pg.93]

The volume provides an assembly of useful engineering and properties data on materials of selection for process equipment, and the chemical properties, including toxicity of industrial solvents and chemicals. [Pg.383]

At the higher metal level (2.0-4.5% Ni with up to 2% Sb) used to study artificially contaminated materials, XRD results have shown the formation of Ni-Sb alloys (NiSb x<0.08) whereas XPS data have indicated that a non-reducible antimony oxide, a well dispersed reducible Sb phase together with reducible Sb (that form an alloy with reducible Ni), were present. Selective chemisorption data for unsupported Ni-powders showed that one surface structure can effectively passivate 2-3 Ni atoms with respect to H2 chemisorption. XPS examination confirmed that Sb segregates at the surface of Ni particles where it can drastically affect the electron properties of neighboring Ni atoms thus reducing their activity. [Pg.354]

Surface tension is an important property in the study of physics and chemistry at free surfaces as it affects the transfer rates of vapor absorption at the vapor-liquid interface. Such data are of importance to scientists, engineers, and practitioners in many fields such as chemical process and reactor engineering, flow and transport in porous media, materials selection and engineering, biomedical and biochemical engineering, electronic and electrical engineering, etc. The surface of a liquid is not only interesting for the fundamental aspects but also for its relevance in environmental problems, biological phenomena, and industrial applications. [Pg.201]

The mechanical properties of the various grouts that are important factors in the selection of a grout for a specific job include permanence, penetrability and strength. Similarly, the chemical properties include permanence, gel time control, sensitivity, and toxicity, and the economic factors include availability and cost. These properties are all discussed in detail in the sections that follow, using data from specific materials whenever such data will give a better understanding of chemical grouts. [Pg.160]


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Material selection

Property data

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