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Below are the first 10 and last 10 pages of uncorrected machine-read text (when available) of this chapter, followed by the top 30 algorithmically extracted key phrases from the chapter as a whole.
Intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text on the opening pages of each chapter.
Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.
Do not use for reproduction, copying, pasting, or reading; exclusively for search engines.
OCR for page 41
INDEX
Note: Index numbers are NMAB Report Numbers
A
Adhesives and adhesive bonding: 422
Aircraft:
advanced materials: 434, 450,
476, 479
high speed civil transport
materials: 450, 468, 479
interior cabin materials: 477-1,
477-2
security: 463, 471, 482
structural integrity: 417
turbine engine materials: 450,
475, 479
Aluminum
aircraft alloys: 476, 479
industry: 425, WS-02
Army
materials technology: Joint-O1
structural integrity: 417
Automotive materials: 468
Aviation security: 463, 471, 482-1
B
Banknote design and materials: 433,
472, 478
Basic and strategic metals industry:
425
Battery materials: 438-1
Beam processing: 461
Beryllium metal supply: 452
Bioelectrochemist~y: 438-1
Biological inspired processing, 464
Biomimetics: 464
41
Bioprocessing: 428
C
Cannon: 423
Cement and concrete: 437
Ceramics
in advanced heat engines: 431
in gun barrels: 423
in Japan: 418
in turbine engines: 450
powder: 442
tribology: 435
Chemical processing: 428, 429-2
Chemical sensors: 470
Chlorofluorocarbons (CFC): 469
Chromium: 480
Coatings:
diamond: 445
in turbine engines: 425, 475
processing: 438-3
Cogeneration: 429-1
Commercial aviation security: 463,
482-1
Commercialization of advanced
materials: 465
Competitiveness: 465, Joint-03
Composites
biologically-inspired: 464
ceramic matrix: 450
fibers: 458
in aircraft: 476, 479
in advanced heat engines: 431
in gun barrels: 423
in turbine engines: 450
industry: WS-02
OCR for page 42
42
life prediction: 460
mechanical behavior: 450
manufacturing & processing: 450
polymer (thermoplastic) matrix:
434
ultrafine microstructures: 454
Compound semiconductors:
in Japan: 443
processing challenges: 446
Computer-aided materials selection:
467
Computation in materials science: 451
Concrete durability: 437
Copper industry: 425
Corrosion: 438-2
Critical materials: 425, WS-02, 480
Currency materials and features: 433,
472, 478
D
Databases and knowledge bases, 467
Diamond and diamond-like materials
coatings: 445
semiconductor: 474
survey: 445
E
Electrochemical
Industry energy efficiency: 429-2
Science and technology: 438-1
Electronic materials
in Japan: 443
high temperature: 474
VLSI: 416
Electric power generators, materials:
430
Electronic packaging: 449, 474
Energy
efficiency: 428,
NUMB Catalog
conservation: 428, 429-1, 429-2
Engine, heat: 431
Engineering life cycle: 455
Expert systems: 467
Explosives (plastic) detection: 463,
471, 482-1
Explosions, dust and gases: 447, 448
F
Failure modes
in aircraft structure: 476, 479
in VLSI: 416
Ferrofluids: 426
Fibers for composites: 458
Fire resistant materials: 462, 477-1,
477-2
Fly ash in concrete: 437
Former Soviet Union, materials
opportunities: WS-O1
Fracture
in ceramics: 435
in structures: 417
Friction (ceramics): 435
Fuel cells: 438-1
G
Gas turbines: 417, 419, 430, 450, 475,
480
Global economy, 465, WS-02, 480
Gun tubes: 423
H
Hazards: gases, vapors and dusts: 448
447
Heat engines: 431
Heat treatment: 457
Hierarchical structures: 464
OCR for page 43
Index
High-density electronic packaging:
449
High-purity chromium: 480
High-temperature materials: 450
High-temperature semiconductor
materials: 474
Historical records, preservation: 432
I
Import dependence: 425, WS-02, 480
Indium phosphide: 446
Industrial base, materials: WS-02,
Joint-03
Industrial energy conservation: 429-1,
429-2
Industrial waste reduction: 466
Infrared sensors: 446, 470
Infrastructure materials: 437
Integrated processing: 461
Iron-aluminum ordered alloys: 419
J
Japan
ceramics: 418
electronic materials: 443
Joining: 421, 422
L
Laser processing: 443, 461
Life cycle engineering: 455
Life prediction: 460, 479
Liquid crystalline polymers: 453
43
M
Magnetic materials: 426
Magneto-optic materials: 426
Manufacturing, use of sensors: 444,
470
Mass transit cars, interior materials:
462
Materials and structures conference:
420
Materials characterization, accelerated:
479
Materials commercialization: 465
Materials processing: 461, 473
Materials science & engineering:
Joint-02
Metals
in aircraft: 476, 479
industrial base: WS-02,
processing: 444
Microwave processing: 473
Minerals: Joint-03
N
Nanoscale microstructures: 454
National Defense Stockpile: 424, 480
Next-generation currency design: 472
Nickel aluminum ordered alloys: 419
Nitrides, semiconductors: 474
Nondestructive evaluation
adhesive bonds: 422
ceramics: 442
for high temperature coatings: 475
in powder production: 442
Nonlinear optical materials: 453
o
Optoelectronic devices: 443
Organic chemicals, synthesis: 428
OCR for page 44
44
Ordered alloys: 419
Oxidation resistant coating: 475
p
Packaging design-electronic: 416, 449,
474
Paper, historical documents: 432
Permanent magnets: 426
Pipelines: 417
Plastic explosives: 463
Plasma processing: 415
Polymer matrix composites: 434, 458,
460, 476, 479
Polymers
adhesives: 422
liquid crystalline: 453
Powder production, ceramic and
metallic: 442
Preservation of historical documents:
432
Processing
beam: 461
bioprocessing: 428
compound semiconductor: 446
electronic materials: 443
heat treating: 457
integrated: 461
microwave: 473
control: 444, 457
plasma: 415
powder: 442
welding: 421
Q
Quartz, natural, for the national
stockpile: 424
NAT Catalog
R
Reinforced concrete: 437
Rheology: 453
S
Semiconductors:
in Japan: 443
high temperature: 474
Sensors and sensor materials: 421,
438-3, 457, 470
Silicon carbide, semiconductor: 474
Soft magnetic materials: 426
Smoke resistant materials: 462,
WS-03, 477
Steel
energy efficiency: 429-2
Storage media (magnetic): 426
Strategic industrial base: 425
Structural design, 467
Structural integrity: 417, 434
Structural monitoring: 470
Supercomputing capabilities: 451
Superalloys
alloys: 430
coatings: 475
chromium, high purity: 480
industry: 425, WS-02
powder: 442
Synthetic hierarchical structures: 464
T
Tank integrity: 417
Technical threat, 472
Technological opportunities, 464
Technology, improvements: 425
Testing, accelerated: 479
Thermal barrier coatings: 476
OCR for page 45
finder
Thermal plasma synthesis and
consolidation: 415
Thermochemical data: 410-1
Thermotropic: 453
Titanium industry: 425, WS-02
Tribology, ceramics: 435
, ~ . · .
urome engines
coatings: 475
superalloys: 430, 450
U
Ultrafine microstructures: 454
Unified life cycle engineering: 455
V
Vapor detection, 463
Very-large-scale integration (VLSI):
416
W
Waste product utilization: 429-1, 429-2
Wear of ceramics: 435
Welding: 421
45
Representative terms from entire chapter:
strategic industrial
