Air Force Material Laboratory

PBO andPBZT. PBZ, a family of/ -phenylene-heterocycHc rigid-rod and extended chain polymers includes poly(/)-phenylene-2,6-benzobisthiazole) [69794-31-6] trans-V 27V) and poly(/)-phenylene-2,6-benzobisoxazole) [60871-72-9] (ot-PBO). PBZT and PBO were initially prepared at the Air Force Materials Laboratory at Wright-Patterson Air Force Base, Dayton, Ohio. PBZT was prepared by the reaction of... [Pg.66]

PBI is being marketed as a replacement for asbestos and as a high temperature filtration fabric with exceUent textile apparel properties. The synthesis of whoUy aromatic polybenzimidazoles with improved thermal stabUities was reported in 1961 (12). The Non-MetaUic Materials and Manufacturing Technology Division of the U.S. Air Force Materials Laboratory, Wright-Patterson Air Force Base, awarded a contract to the Narmco Research and Development Division of the Whittaker Corp. for development of these materials into high temperature adhesives and laminates. [Pg.67]

E. Rudy, Compendium of Phase Diagram Material, Air Force Materials Laboratory, Wright-Patterson Air Force Base, Ohio, 1969. [Pg.443]

J. M. Ctiscione and co-workers, U.S. Air Force Materials Laboratory ML-TDR64-173, Parts I through IV, 1964—1966. [Pg.523]

Anonymous, Impact Physics Publications, Air Force Materials Laboratory Report, Wright-Patterson AFB, OH, 34 pp., August 1970. [Pg.364]

Swift, H.F., Preonas, D.D., Dueweke, P.W., and Bertke, R.S., Response of Materials to Impulsive Loading, Air Force Materials Laboratory Technical Report No. AFML-TR-70-135, Wright-Paterson AFB, OH, 76 pp.. May 1970. [Pg.365]

Herrman, W. and Nunziato, J.W., Nonlinear Constitutive Equations, in Dynamic Response of Materials to Intense Impulsive Loading (edited by Chou, P.C. and Hopkins, A.K.), Air Force Materials Laboratory, Wright-Paterson AFB, 1973, Chap. 5. [Pg.366]

Stnjcturai Design Guide for Advanced Composite Applications, Vol. 1, Material Characterization, 2nd edition. Advanced Composites Division, Air Force Materials Laboratory, January 1971. [Pg.53]

Stephen W. Tsai, Mechanics of Composite Materials, Part It, Theoretical Aspects, Air Force Materials Laboratory Technical Report AFML-TR-66-149, November 1966. [Pg.119]

Many people have been most generous in their support of this writing effort. I would like to especially thank Dr. Stephen W. Tsai, of the Air Force Materials Laboratory, for his inspiration by example over the past ten years and for his guidance throughout the past several years. [Pg.538]

Azusa, Cal, for the Air Force Materials Laboratory, Final Technical Engineering.Report ASD-TR-63-7-900 (July 1963), AD-344885 3) C.C. Petropoulos, A Study of the Encapsulation of High Energy Substances , National Cash Register Co for the Office of Naval Research, Final Report of Contract NO nr 2343 00 (April 1964) 4) L. Stiefel, Sequential Ig-... [Pg.143]

L.L. Carpenter et al, Manufacturing Methods for Oxidizer Encapsulation , Union Carbide Corp for Air Force Materials Laboratory, Technical Report AFML-TR-68-144 (June 1968) [Declassified on 31 Dec 1974]... [Pg.143]

In the mid 70 s, researchers at Wright-Patterson Air Force Materials Laboratory,... [Pg.41]

Y. A. Chang, Air Force Materials Laboratory, Tech. Rept., AFML-TR-65-2, II, V (1966). [Pg.134]

Ehlers, G.F.L. Air Force Materials Laboratory Technical Report No. AFML-TR-75-202, Part I, AD-A019-957 (1975). [Pg.468]

Brussat, T.R., Chiu, S.T. and Mostovoy, S. (1977). Fracture mechanics for structural adhesive bonds. AFML-TR-77-163, Air Force Materials Laboratory, Wright-Patterson Air Force base, Dayton, OH. [Pg.86]

Interim Report, Processing Science of Epoxy Resin Composites (1981) Contract No. F33615-80-C-5021, 9/15/80-10/15/81, Air Force Materials Laboratory, Weright Patterson AFB, Ohio... [Pg.206]

Hadad, D. K.., Fritzen, J. S., May, C. A. Exploratory Developments of Chemical Quality Assurance and Composition of Epoxy Formulations, Air Force Materials Laboratory Technical Report, AFML-TR-77-217, (1978)... [Pg.31]

Weaver, F. Epoxy Adhesive Surface Energies Via The Pendant Drop Method, Air Force Materials Laboratory Report, AFWAL-TR-82-4179 (1982)... [Pg.32]

Tsai, S. W., Halpin J. C. Effects of Environmental Factors on Composite Materials, Air Force Materials Laboratory Report, AFML-TR-67-423, (1969)... [Pg.32]

Work in fluorine chemistry at the University of Texas at Austin, and previously as the Massachusetts Institute of Technology, has had as its principal sponsor the Air Force Office of Scientific Research, after initial support from the U.S. Air Force Materials Laboratory. We are grateful for other support from the National Science Foundation and the Office of Naval Research. Work in fluorine chemistry at Rice University has been supported over more than a decade by the U.S. Army Research Office, Durham, by the U.S. Atomic Energy Commission, by the National Science Foundation, by the U.S. Air Force Materials Laboratory, and the Robert A. Welsh Foundation. [Pg.207]

McDevitt, N. T., and Baun, W. L., Some Observations of the Relation Between Chemical Surface Treatments and the Growth of Anodic Barrier Layer Films, Air Force Materials Laboratory Technical Repot 76-74, June 1976. [Pg.460]

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