References (27)
- King, W. E., G. H. Campbell, W. L. Wien, and S. L. Stoner (1993), Strength of Al and Al-Mg/Alumina Bonds Prepared Using Ultrahigh Vacuum Diffusion Bonding, Lawrence Livermore National Laboratory, Livermore, Calif., (UCRL 53868-93), 6, pp. 19-22.
- King, W. E., G. H. Campbell, D. L. Haupt, J. H. Kinney, R. A. Riddle, and W. L. Wien (1995), "X-Ray Tomographic Microscopy Investigation of the Ductile Rupture of an Aluminum Foil Bonded Between Sapphire Blocks," Scripta Metallurgica et Materialia, Vol. 33 (12), pp. 1941-1946.
- Nuismer, R. J., and S. C. Tan (1988), "Constitutive Relations of a Cracked Composite Lamina," J. Comp. Mater., 22, pp. 306-321.
- Lee, J.-W., and I. M. Daniel (1990), "Progressive Transverse Cracking of Crossply Laminates," J. Comp. Mater., pp. 1225-1243.
- Tsai, C.-L., and I. M. Daniel (1991), "The Behavior of Cracked Cross-Ply Composite Laminates Under Simple Shear Loading," Comp. Eng., 1(1), pp. 3-11.
- Hashin, Z. (1985), "Analysis of Cracked Laminates: A Variational Approach," Mech. Mater., 4, pp. 121-136.
- Nairn, J. A. (1989), "The Strain Energy Release Rate of Composite Microcracking: A Variational Approach," J. Comp. Mater., 23, pp. 1106-1129.
- Thomas, M. E. (1991), "Temperature-Dependence of the Complex Index of Refraction," Handbook of Optical constants of Solids II, Academic Press, New York, p. 177.
- Myers, V. H., A. Ono, and D. P. DeWitt (1986), "A Method for Measuring Optical Properties of Semitransparent Materials at High Temperatures," AIAA Journal 24, pp. 321-326.
- Lynch, D. W. (1985), "Interband Absorption - Mechanisms and Interpretation," Handbook of Optical Constants of Solids, Academic Press, New York, p. 189.
- Skettrup, T. (1978), "Urbach's Rule Derived from Thermal Fluctuations in the Bandgap Energy," Phys. Rev. B 18 p. 2622.
- Dow, J. P., and D. Redfield (1972), "Toward a Unified Theory of Urbach's Rule and Exponential Absorption Edges," Phys. Rev. B 5, p. 594.
- Maltby, J., V. C. Garcia, and B. T. Kornblum (1996), "Radiation-Induced Thermal Stresses in High-Power Flashlamps," Engineering Research, Development and Technology, Lawrence Livermore National Laboratory, Livermore, Calif., UCRL-53868-96.
- Wilson, J., L. L. Hench, and D. Greenspan (1995), Bioceramics, Volume 8, Pergamon/Elsivier Science Ltd., Oxford.
- Goto, T., N. Wakamatsu, H. Kamemizu, M. Iijima, Y. Doi, and Y. Moriwaki (1991), "Sintering Mechanism of Hydroxyapatite by Addition of Lithium Phosphate," J. Mater. Sci.-Medicine, 2, pp. 149-152.
- Wang, P. E., and T. K. Chaki (1993), "Sintering Behavior and Mechanical Properties of Hydroxyapatite and Dicalcium Phosphate," J. Mater. Sci.-Medicine, 4, pp. 150-158.
- Kingery, W. D., H. K. Bowen, and D. R. Uhlmann (1976), Introduction to Ceramics, John Wiley & Sons, Inc., New York, N.Y.
- Klawitter, J. J., and S. F. Hulbert (1971), "Application of Porous Ceramics for the Attachment of Load Bearing Orthopedic Application," J. Biomed. Mater. Res. Symp., 2, pp. 161-169.
- Hench, L., and J. Wilson (1993), An Introduction to Bioceramics, World Scientific Publishing Co. Ltd., Singapore.
- Cady, W. E., and L. E. Caley (1977), Properties of Kel- F 800, Lawrence Livermore National Laboratory, Livermore, Calif., (UCRL-52301).
- Grotheer, E. W. (1988), Characterization of PBX Binders, Allied Signal, Kansas City, Mo., (BDX-613- 3849).
- Hoffman, D. M., F. M. Matthews, and C. O. Pruneda (1989), "Dynamic Mechanical and Thermal Analysis of Crystallinity Development in Kel-F 800 and TATB/Kel-F 800 Plastic Bonded Explosives. Part I Kel-F 800," Thermochemica Acta, Vol. 156, (2), pp. 365-372.
- Herold, R. D. (1990), PBX Binders FY90-2, Allied Signal, Kansas City, Mo, (KCP-613-4362).
- Dobratz, B. M., and P. C. Crawford (1985), LLNL Explosives Handbook, Change 2, Lawrence Livermore National Laboratory, Livermore, Calif., (UCRL- 52997).
- Overturf III, G. E. and J. D. Lemay, (Draft), Survey of Kel-F Literature for W87 LEP, Lawrence Livermore National Laboratory, Livermore, Calif.
- Schapery, R. A. (1974), "Viscoelastic Behavior and Analysis of Composite Materials," Mechanics of Composite Materials, G. P. Sendeckyj, Ed., Academic Press, New York, N.Y., pp. 85-168.
- Struik, L. C. E. (1978), Physical Aging in Amorphous Polymers and Other Materials, Elsevier Scientific Publishing, Amsterdam, Netherlands. Thrust Area Report FY 96 5-25