Materials Science Research in JapanDIANE Publishing, 1994 - 58 lappuses Compilation of various summaries, overviews and reports on recent advances in high-technology science research in Japan. |
No grāmatas satura
1.–5. rezultāts no 16.
12. lappuse
... Functionally Gradient Materials : NRIM in responsible for fabrication of Func- tionally Gradient Materials ( FGM ) . Main fabrication method is gaseous phase method , especially PVD method . FGM are expected to solve critical material ...
... Functionally Gradient Materials : NRIM in responsible for fabrication of Func- tionally Gradient Materials ( FGM ) . Main fabrication method is gaseous phase method , especially PVD method . FGM are expected to solve critical material ...
13. lappuse
... Functionally Gradient Materials ( FGM ) —The State of the Art " ( by A. Yoshitake , M. Tamaru , I. Shiota and M. Niiono in collaboration with NKR Corporation and National Aerospace Lab . ) describes processes investigated . Four main ...
... Functionally Gradient Materials ( FGM ) —The State of the Art " ( by A. Yoshitake , M. Tamaru , I. Shiota and M. Niiono in collaboration with NKR Corporation and National Aerospace Lab . ) describes processes investigated . Four main ...
14. lappuse
... Functionally Gradient Materials ( FGM ) Architecture : A New Type of Ceramic - Metal Assemblage Designed for Hot Structural Compo- nents . " Functionally Gradient Materials are hybrids of two dissimilar materials in which effective ...
... Functionally Gradient Materials ( FGM ) Architecture : A New Type of Ceramic - Metal Assemblage Designed for Hot Structural Compo- nents . " Functionally Gradient Materials are hybrids of two dissimilar materials in which effective ...
36. lappuse
... functionally graded struc- tures in several laboratories . Government involvement is , despite the strong role of industry , substantial . Japan's government sponsors several ambitious coordinated research programs , and also supports ...
... functionally graded struc- tures in several laboratories . Government involvement is , despite the strong role of industry , substantial . Japan's government sponsors several ambitious coordinated research programs , and also supports ...
37. lappuse
... functionally graded materials Hitachi Ltd. Honda REF . 1 • Solid state processing , including roll diffusion bonding 2 • Copper - carbon composites for electrical 3 applications • Pressure cast aluminum engine block featuring alu- mina ...
... functionally graded materials Hitachi Ltd. Honda REF . 1 • Solid state processing , including roll diffusion bonding 2 • Copper - carbon composites for electrical 3 applications • Pressure cast aluminum engine block featuring alu- mina ...
Bieži izmantoti vārdi un frāzes
Alloy Composites alloys applications Behavior C/C composites Carbon Fiber ceramics Chemical China collaboration Composite Materials creep Daido Steel deformation DTUL ductility electronic fabrication fiber reinforced aluminum fiber reinforced metals fracture Functionally graded Functionally Gradient Materials fuzzy logic fuzzy systems heat resistance high temperature Hong Kong improved Interface intermetallic compounds International investigated Japan laboratories large-scale and parallel LCPs manufacturing mathematics matrix computations Mechanical Properties ment metal matrix composites method Mitsubishi Heavy Industries molding Nb-Al Nb,Al neural networks Nippon Steel Nippon Steel Corporation numerical linear algebra numerical linear algebraists Osaka oxidation resistance particle reinforced polyimides polymer powder metallurgy problems processing produced Professor Datta recent Reinforced Aluminum Alloy reported on Microstructure Research Institute Science and Technology SiC fiber SiC whisker reinforced sintering Squeeze cast stability Steel Inst structure Sumitomo superengineering plastics thermal TiAl TiAl alloys tion Tokyo Toray Unitika University Whisker Reinforced Aluminum
Populāri fragmenti
58. lappuse - Department of Materials Science and Engineering Massachusetts Institute of Technology, Cambridge, MA 02139, USA...
8. lappuse - China Lake, California. He started there as a research physicist in the Semiconductor Physics Branch, then as a supervisory research physicist he headed the Electron Structure of Solids Branch and the Semiconductor and Surface Science Branch, both in the Physics Division, Research Department Dr Rehn received his BA in physics at the University of California, Berkeley in 1953 and his Ph.D. in physics from the University of Pittsburgh in 1962. After completing his thesis research in nuclear quadrupole...
56. lappuse - Mean-field Micromechanics Model and its Application to the Analysis of Thermomechanical Behavior of Composite Materials,
62. lappuse - ... relation by fuzzy reasoning). As in any science, practical successes call for theoretical justifications. Although the above technologies have become firmly established in welldefined domains of applications, only few theoretical results have been obtained. Theoretical results are needed not only for explaining the successful results but also for guiding general design methodology for systems. The success of neural networks is explained by the universal approximation property (via Stone-Weierstrass...
64. lappuse - Department of Systems Science Tokyo Institute of Technology 4259 Nagatsuta, Midori-ku Yokohama 227 Japan Tel: +81 45-922-1111 ext.
52. lappuse - Composites — Proceedings of the International Symposium on Advances in Cast Reinforced Metal Composites," (SG Fishman and AK Dhingra, eds.), ASM International, Metals Park, OH, 1988.
22. lappuse - Electron-Channelling Enhanced Microanalysis of Intermetallic Compounds." Substantial increases in positron lifetime were caused in both Ti-49a%Al and Ti-56a%Al alloys by the electron irradiation, demonstrating that there are no structural vacancies on either side of the stoichiometric composition. Osaka University Y. Umakoshi, T. Nakano, and T. Yamane have reported on "Control Lamellae Structure and Plastic Behavior of TiAl Crystals Grown by a Floating Zone Method.
8. lappuse - Lake, he undertook research in clcctrorcflcctance of wide-gap semiconductors and insulators. Beginning in 1973, he participated in the establishment of the Stanford Synchrotron Radiation Laboratory and continued with the application of synchrotron radiation in research in semiconductors and semiconductor surfaces. In 1976 he initiated a research program in liquid-phase epitaxy, followed in 1984 by research in molecular-beam epitaxial growth and characterization of semiconductor materials and hctcrostructurcs.
56. lappuse - Stress Relaxation by Dislocation Punching to Radial Direction from a Long Fiber in a Composite,
51. lappuse - Layer Growth at the Interface of Plasma-Sprayed Niobium and FeCrAlY in a Tungsten FibreReinforced High-Temperature Superalloy Composite,