Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Materials Properties Handbook

R. Boyer, G. Welsch, and E. CoUings, eds.. Materials Property Handbook TitaniumMlloys, ASM International, Matedals Park, Ohio, 1994. [Pg.112]

Collings, E.W. and G, Welsch Materials Properties Handbook Titanium Alloys,... [Pg.1620]

R. Boyer, G. Welsch and E.W. Collins (eds.), Materials Properties Handbook, Titanium Alloys, ASM, Materials Park, OH, 1994. [Pg.307]

Materials Properties Handbook Titanium Alloys, Eds. Boyerer, Collings, Welsch Published by ASM International. [Pg.400]

Bradley E (1994) Ti-8Mn. In Material Properties Handbook Titanium Alloys, pp. 755-763. Materials Park, Ohio, ASM Intern. [Pg.386]

Materials Algorithms Project Source of algorithms usefiil for modeling material behavior, http //www. msm.cam.ac.uk/map/rrrapmain.html Materials Properties Handbooks Operation Distributes the Aerospace Structural Metals Handbook, the Structural Alloys Handbook, the Damage Tolerant Design Handbook, and the Composite Failure Analysis Handbook, http // www.purdue.edu/MPHO... [Pg.656]

Materials properties handbook titanium alloys / editors, Rodney Boyer, Geiliard Welsch, EW. Collings... [Pg.2]

Titanium Alloys is the resialt of an ambitious effort to provide comprehensive property data in electronic form for not only databases but also print products such as the Materials Properties Handbooks series. In this endeavor. Titanium Alloys represents a book-first approach devoted to comprehensive, alloy-specific compilations of properties and processing information on engineering materials. This work has produced a substantial amovmt of titaniiim property data in electronic form, and follow-up efforts will determine which of the information is suitable for more structured and searchable electronic formats such as MatDB. [Pg.3]

Material property (MP) correlations for irradiated fuel, cladding, and other assembly components (e.g., grid spacers) have been provided in the Material Properties Handbook that was developed under this initiative. This document also includes material property correlations for the materials in the generic burnup cask (GBC)-32. [Pg.99]

In addition to providing MP correlations for the components in the fuel assemblies and the GBC-32, the Material Properties Handbook also contains a section that provides representative conditions of fuel rods as a function of bumup and axial location. These conditions include burnup level, fast neutron fluence, corrosion layer thickness and hydrogen content. All of these parameters are input values to various correlations described in the Material Properties Handbook. These tables were used as necessary to provide initial conditions for the fuel rods being modeled under this initiative. [Pg.100]

It is acknowledged that the conditions described here are those of the fuel rod immediately upon discharge from the reactor. It is possible that the conditions of vacuum drying (up to 400°C) and extended dry cask storage (20°C to 400°C for 20 to 60 years) could change the MP and initial conditions provided in the Material Properties Handbook. [Pg.101]

A. Grobe, Properties of Cellulose Materials, Polymer Handbook, 3rd ed., John Wiley Sons, Inc., New York, 1989, pp. 117—170. [Pg.356]

Observe that this is a geometric property, not to be confused with the modulus of the material, which is a material property. I, c, Z, and the cross-sectional areas of some common cross-sections are given in Fig. 3-1, and the mechanical engineering handbooks provide many more. The maximum stress and defection equations for some common beamloading and support geometries are given in Fig. 3-2. Note that for the T- and U-shaped sections in Fig. 3-1 the distance from the neutral surface is not the same for the top and bottom of the beam. It may occasionally be desirable to determine the maximum stress on the other nonneutral surface, particularly if it is in tension. For this reason, Z is provided for these two sections. [Pg.145]

Handbook of Plastics Materials and Technology , Irvin I. Rubin John Wiley Sons (1990) ISBN 0471096342. Essential information from acetal to XT polymer. This single source comprises 119 chapters of in-depth basic information about plastic materials, properties, processing, assembly, decorating and industry practices-all presented in a readily accessible and consistent format. Also features a wealth of useful auxiliary information and tables. [Pg.599]

Handbook of elastomers , A.K. Bhowmick and H.L. Stephens Marcel Dekker (1988) Series Plastics Engineering, Volume 19 ISBN 0824778006. This handbook systematically addresses the manufacturing techniques, properties, processing, and applications of rubbers and rubber-like materials. The Handbook of Elastomers provides authoritative information on natural rubbers, synthetic rubbers, liquid rubbers, powdered rubbers, rubber blends, thermoplastic elastomers, and rubber-based composites— offering solutions to many practical problems encountered with rubber materials. [Pg.601]

A comprehensive series of tests have been performed on ThermoWood, which are detailed in the ThermoWood handbook, available from the Finnish ThermoWood Association (Mayes and Oksanen, 2002). A synopsis of the material properties is given below. [Pg.178]

Verrill. et al. Properties and Selection Nonfenvus Atloys and Special-Purpose Materials Metals Handbook, lOili Edition. American Institute of Chemical Engineers (AIChE) New York, NY, 1999. [Pg.59]

Numeric. Researchers routinely use reported nunierie measurements and data in their work. Numeric databases include the Beilstein Handbook of Organic Chemistry, ihc Gmelin Handbook of Inorganic and Orgunomelallic Chemistry, properly daia networks the Materials Property Data Network Inc. (MPDt and Chemical Property Data Network (CPDNtl. and TDS NUMERICA. [Pg.831]

Buschow, K.H, and E.P Wohlfarth Handbook of Magnetic Materials A Handbook on the Properties of Magneticaih Ordered Substances. Vol. 5. Elsevier Science, New York, NY, 1990. [Pg.958]

G. Wypych, Effects of Fillers on Rheolgoical Properties of Filled Materials, in Handbook of Fillers, Second Edition, Plastic Design Library, Toronto, Canada, 1999, Chapter 9. [Pg.671]

This should be a useful text for a junior or senior collegiate materials engineering student, endeavoring to learn about this topic for the first time, or corporate R D personnel, attempting to decipher what all the bells and whistles of their new, quite expensive, instrument will do for them. By basing this treatment on the elementary physical chemistry, heat transfer, materials properties, and device engineering used in thermal analysis, it is my hope that what follows will be a useful textbook and handbook, and that the information presented will remain current well into the future. [Pg.291]

In words, aP can be described as the fractional volume increase (dV/V) with respect to a temperature increase (dT) under isobaric conditions, while /3y is the corresponding fractional volume decrease (—dV/V) with respect to a pressure increase (dP) under isothermal conditions. Of course, both aP = ah P, T) and = fir(P, T) vary with P, T, as do other thermodynamic properties. Numerical values of aP, fiT (e.g., for 1 atm, 25°C) are often tabulated with other material properties, such as density, boiling point, or heat capacity, as unique fingerprints of a pure substance. [Throughout this book, experimental values are commonly drawn from standard sources, such as J. O. Hirschfelder, C. F. Curtiss, and R. B. Bird, Molecular Theory of Gases and Liquids (Wiley, New York, 1954) or any recent edition of the CRC Handbook of Chemistry and Physics (CRC Press, Boca Raton, FL).]... [Pg.23]

Gielisse, P.J. (1998). Mechanical properties of diamond, diamond films, diamondlike carbon and like-diamond materials. In Handbook of Industrial Diamonds and Diamond Films (M.A. Prelas, G. Popovici, and L.K. Bigelow, eds). Marcel Dekker, Chapter 3, pp. 49—88. [Pg.47]

ASM International—The Materials Information Society (formerly American Society for Metals). 9639 Kinsman Road, Materials Park, OH 44073-0002, U.S.A. Phone +1 800-336-5152, Fax +1 440-338-4634. E-mail cust-srv asminternational.org. URL http //www.asminternational.org. ASM members have online access to such resources as Alloy Properties, Materials Property data. Coatings data, ASM handbooks, and journals. Track and purchase standards. [Pg.274]

H.G. Grimmeiss, E. Janzen, in Handbook of Semiconductors, Completely Revised Edition Materials Properties and Preparation, vol. 3b, ed. by S. Mahajan (Elsevier, Amsterdam, 1984), pp. 1857-1983... [Pg.42]

The application of linear elastic fracture mechanics is in principle straightforward, albeit at times very complicated in application. Say, for example, a structural element is to be constructed of a given material. The value of (or Kj ) can be determined from tests on standard specimens or perhaps obtained from handbooks of materials properties. If the designer can now perform a stress analysis for the part under the loads in question for its... [Pg.288]

The intended audience ranges from synthetic organic and organometallic chemists, to electronic device design architects who are searching for specific materials properties of a given composition. It is intended that the work be a handbook of particular use to those directly involved in the growth of films. [Pg.3]

W.L. Wolfe, Properties of optical materials. In Handbook of Optics, W.G. Driscoll, (Ed.), McGraw-Hill, New York, 1978. [Pg.37]

See other pages where Materials Properties Handbook is mentioned: [Pg.153]    [Pg.891]    [Pg.1]    [Pg.891]    [Pg.99]    [Pg.153]    [Pg.891]    [Pg.1]    [Pg.891]    [Pg.99]    [Pg.386]    [Pg.163]    [Pg.164]    [Pg.23]    [Pg.958]    [Pg.51]    [Pg.2322]    [Pg.2305]    [Pg.2058]    [Pg.2004]    [Pg.2224]    [Pg.89]   


SEARCH



G. Korotcenkov, Handbook of Gas Sensor Materials: Properties, Advantages and Shortcomings

Materials Properties Handbook Operation

© 2024 chempedia.info