Click here for Subject Classification Scheme
A B C D E F G H I J K L M N O P Q R S T U V W-Z
ablation: fracture - 274K, mass transfer - 414C
abrasion: materials test - 280O, wear - 292D
absorption: internal friction - 152F, noise control - 172J, structural vibrations - 156P, vibration damping - 152F, waves in solids - 158O, waves in fluids - 162H, 164F
acceleration: detonation - 170C, dynamics of particles - 150D, measurement in flow - 384C, accidents - 502G
acoustic, acoustics - 172, combustion - 416J, stress analysis - 280S, materials testing - 280S, nondestructive testing - 280S
acquisition systems, data - 200Z
active control: noise - 172J, structures - 282D
actuators, robotics - 206C
adaptation, functional rehabilitation - 552F
adaptive systems - 200J
addition of heat to fluids, free shear layers - 368K, internal flow - 364L, 366K, wall layers - 362Q
adhesion: friction and wear - 292C, interfacial bonding - 298C
aerodynamics - 378
aeroelasticity - 166T
aerospace: systems and control - 204C, structures - 288I
aerothermoelasticity - 166T
afterburners, combustion - 416O
air: dispersion by - 514B, lighter than, devices - 288G
aircraft: dynamics - 378, structures - 288E, systems and control - 204C, vibrations - 156I
airfoils, aerodynamics - 378B
algorithms: computational mechanics methods - 106I, finite element methods - 102L, difference methods - 104E, optimal control systems - 202B
amplitude, finite: waves in incompressible fluids - 162C
analogies - modeling - 100D, 200I
anchoring of soils - 268E
anisotropic beams - 258I
anisotropic media: elasticity - 250I, heat transfer - 406F, plasticity - 254K, viscoelasticity - 252K, viscoplasticity - 254K, waves in solids - 158K
anisotropic: membranes, plates, and shells - 260F, rock mechanics - 270F, structures, stability - 262K
arches: stability - 262F, structural mechanics - 284E, vibrations - 154L
architectures (computer): computational methods - 106K, manufacturing - 208E
arrest of cracks in fracture - 276K
artificial intelligence: manufacturing - 208E, systems and control - 204K
assembly, robots - 206H
astronautics - 168
asymptotic computational methods - 106G
atmospheric: dispersion - 514B, heat transfer - 458L, turbulence - 458K, boundary layers - 458M
atomized liquids: multiphase flows - 360B-H, micromeritics - 450J
attitude control and stabilization, astronautics - 168K
augmentation techniques, heat transfer devices - 410E
automatic control - III
axial fans, pumps, compressors, fluid dynamics - 380I, 380K
axial loading, materials testing - 280B
baffling, acoustic - 172J
balancing: rotating machinery - 154K, design of machines - 296C
ballistics - 170L
ballistics, explosions - 170A,P
balls in sports - 552K
bars: mechanics - 258, vibrations - 154B
basins (stilling), hydraulics - 352K
beaches, hydraulics - 352P
beams: elastic waves - 158B, mechanics - 258, stability, buckling - 262E, vibrations - 154B
bearings, machines - 294H
beds (fluidized), porous media - 452F
belts: machine elements 294B, mechanics - 258E, vibrations - 154C
BEM, boundary element methods - 106A, 106B
bending: beams - 258F, shells - 260E
biaxial loading, materials testing - 280C
bifurcation, nonlinear dynamics - 150K
bins, container structures - 290K
bio-energy systems - 506L
bioengineering - IX
biomass energy - 506L
biomaterials - 550P
biomechanics - 550
biopropulsion - 550M
biosciences - IX
birefringence of flow in rheology - 350H
blades: rotating, turbomachinery - 260K, excitation - 166J, rotors and inducers, fluid dynamics - 380L, vibrations - 154J
blast waves, compressible fluids - 164D, explosions - 170A,C,P
blasting, comminution: micromeritics - 450D, rock mechanics - 270K, solid fossil fuels - 500F
blood: mechanical properties - 550E, fluid mechanics - 550I
bodies, flow around: compressible - 356I, incompressible - 354O, electromagneto/plasma - 374A
body fluids, mechanics - 550I
body forces: motion dynamics, sports - 552K, muscles - 550C, skeleton - 550B, sports mechanics - 552K
boilers: containment structures - 290C, heat transfer devices - 410K
boiling, convective heat transfer - 404B-L
bolts: rocks - 270I, joints - 298B
bonding, interfacial - 298D
bones - 550B
boom: sonic - 164D, noise control - 172J
boundary: element methods - 106B, layers - 362, atmospheric - 458M, turbulent - 372G, lubrication - 382B, solid, flow stability - 370B-C
brain trauma - 550J
brakes, machines - 294F
branching, of cracks in fracture - 276H
brazing, welding - 298C
breaking of waves - 162D
bridges: vibrations - 156D, structures - 284B
brittle coating, stress analysis - 280U
bubble dynamics, in multiphase flows - 360F
buckling, structural stability - 262
buffeting, solid-fluid interaction - 166R
buildings: structural mechanics - 284G, vibrations - 156B
bunkers, containers - 290K
cables - 258, machine elements - 294B, mechanics - 258E, vibrations - 154C
CAD, computer-aided design - 200H, of machines - 296D, (see also "design")
calorimetry, thermodynamics - 400S
cams, machine elements - 294C
capillary waves, incompressible fluids - 162F
carbon fiber composites - 256D
cascades, internal flow - 366
casting, materials processing - 272J
cavitation: hydraulics - 352L, lubrication - 382K, machinery fluid dynamics 380G
cavities, free shear layers - 368
celestial mechanics - 168D
cements, composite materials mechanics - 256B
centrifugal fans, pumps, compressors - 380H, 380K
ceramics: composite materials - 256T, materials processing - 272T
chains: machine elements - 294B, mechanics - 258C, vibrations - 154C
channel: internal flow - 364, open, flow - 352C, waves 162J, turbulent flow - 372H
chaos, nonlinear dynamics - 150K
chemical reactions in: boundary layers - 362T, compressible flow - 356K, convective heat transfer - 402N, flow stability - 370H, free shear layers - 368L, incompressible flow - 354M, internal flow - 364G, 366E, mass transfer - 414G, rheological flows - 350L, turbulence - 372O, wall layers - 362T
chemical stabilization, of soils - 268L
chimneys: structural mechanics - 284J, vibrations - 156C
CIM, computer-integrated manufacturing - 208E
circulatory fluid mechanics, biomechanics - 550I
classical thermodynamics - 400B
classification of soils - 266B
clays: rheology - 350K, soil mechanics - 266F
closed conduit flow, hydraulics - 352B
coastal: hydraulics - 352P, structures - 286B
coatings: friction and wear - 292H, stress analysis - 280U
codes, structural mechanics - 282P
collectors, solar - 506B
collocation, computational methods - 106C
colloids, rheology - 350I
columns: structural, stability, buckling - 262E, vibration - 154B
combined loading, materials testing - 280F
combustion - 416, in porous media - 452I, internal - 418E, of fossil fuels - 500H, products - 416G
combustors - 416O
comminution (blasting, grinding): micromeritics - 450D, rock mechanics - 270K, solid fossil fuels - 500F
compaction, soil mechanics - 266G
compliant wall, fluid flow- 362R
components, control - 204H
composites - 256, containment structures - 290E, fracture mechanics - 276G, materials processing, wrapping, laying up - 272M, thermomechanics - 412L, vibrations - 154N
compressibility effects: machinery fluid, dynamics - 380J, turbulence - 372E
compressible fluids: flow of - 356, free shear layers, flow in,, laminar - 386C, turbulent - 368E, waves in - 164
compression waves, in compressible fluids - 164B
compressors, machinery fluid dynamics - 380H-Q
computational methods and techniques (letter category "Y"): acoustics - 172Y, aerodynamics - 378Y, algorithms - 102L, 104E, 106I, 101F, astronautics, celestial, orbital mechanics - 168Y, asymptotic methods - 106G, ballistics - 170Y, beams - 258Y, biomechanics - 550Y, boundary element methods, (BEM) - 106A, 106B, buckling - 262Y, cables, ropes, beams, - 258Y, celestial mechanics - 168Y, collocation - 106C, combustion - 416Y, composites - 256Y, conduction - 406Y, control systems - 202Y, convection, one phase - 402Y, convection, two phase - 404Y, damage processes - 274Y, design theory - 200Y, dynamics - 150Y, earthquake mechanics - 456Y, elasticity - 250Y, electromagneto solid, mechanics - 264Y, explosions and ballistics - 170Y, finite difference methods, (FDM) - 104, finite element methods, (FEM) - 102, flow, compressible - 356Y, electromagnetofluid and, plasma - 374Y, free shear layers - 368Y, incompressible - 354Y, internal (inlets, nozzles, diffusers, cascades) - 366Y, internal (pipe, channel, Couette) - 364Y, multiphase - 360Y, rarified - 358Y, stability - 370Y, turbulent - 372Y, wall layers 362Y, fracture processes - 274Y, fracture mechanics - 276Y, friction and wear - 292Y, geomechanics - 454Y, heat transfer, conduction - 406Y, convection, one-phase - 402Y, convection, two-phase - 404Y, radiation, combined modes - 408Y, hybrid methods, computational, mechanics - 106E, hydraulics - 352Y, hydrology - 458E, impact on solids - 160Y, inverse scattering, transform method - 106E, kinematics, dynamics - 150Y, least square method, computational mech - 106C, lubrication - 382Y, machine design - 296Y, machine elements - 294Y, machinery, fluid dynamics - 380Y, mass transfer - 414Y, membranes - 260Y, meteorology - 458Y, methods other, than FEM and FDM - 106, naval hydromechanics - 376Y, oceanology - 458E, optimal control systems - 202Y, orbital mechanics - 168Y, Pade approximant - 106E, perturbation methods - 106G, plasticity, viscoplasticity - 254Y, plates, shells, membranes, - 260Y, porous media - 452Y, radiation, heat transfer - 408Y, rheology - 350Y, robotics - 206Y, rock mechanics - 270Y, ropes - 258Y, shells - 260Y, software - 106I, soil mechanics, applied - 268Y, soil mechanics, basic - 266Y, solid-fluid interactions - 166Y, stochastic analysis - 106F, structures, basic - 282Y, stability (buckling) - 262Y, vibrations - 156Y, vibrations of elements - 154Y, systems theory, design - 200Y, thermomechanics of, solids - 412Y, transform methods, computational mech - 106D, variational methods - 106H, vibrations of solids - 152Y, vibrations of structural elements - 154Y, vibrations of structures - 156Y, viscoelasticity - 252Y, viscoplasticity - 254Y, wave motions in solids - 158Y, waves in, compressible fluids - 164Y, incompressible fluids - 162Y, wear - 292Y
computer, algorithms: aided design (CAD) - 200H, of machines - 296D, (see also "design"), architectures - 106K, hardware, systems and control - 204I, computational, methods - 106I
concentration measurement in flow - 384G
concentrations, stress: elasticity - 250E, plasticity, viscoplasticity - 254D
concrete structures: prestressed - 282I, reinforced - 282H, reinforced vessels - 290G
condensation, two phase convective heat transfer: vapor flowing - 404N, static - 404M
conditioning (air), environmental - 410I
conduction - 406, combined with radiation - 408G, combined with radiation and, convection - 408H
conduit (closed), hydraulic flow - 352B
consolidation of soils - 266G
constants (elastic), materials testing - 280G
constitutive theory- 100B
constitutive relations and models, soil mechanics - 266C
contact: dynamic impact, solids - 160B, fatigue, friction and wear - 292E, fronts, waves in compressible fluids - 164D, problems and inclusions: elasticity - 250H, plasticity and, viscoplasticity - 254E, viscoelasticity - 252H, resistance, heat conduction - 406E
containers - 290, flexible, solid-fluid interaction - 166H, incompressible fluids in, sloshing - 166D, tanks, silos, bins, bunkers, - 290K, vibration of, compressible fluids in - 166H
containment, hazardous waste - 514H
continua, structured, rheology - 350K
continuum mechanics - 100, electromagneto fluids - 374A, electromagneto solids - 264B, plasmas - 374A, rheology 350B
control - III, active, of noise - 172J, aerodynamics of control, surfaces - 378B, aerodynamic stability, and control - 378K, applications - 204, attitude, astronautics, orbital mechanics - 168K, automatic - III, components - 204H, digital systems - 204G, dynamics of control surfaces, naval hydromechanics 376G, environmental conditioning, and control - 410I, experiments - 200Z, 202H, 384V, flutter, solid fluid interactions - 166N, guidance, astronautics - 168K, manufacturing systems - 208E, motion, vehicles - 204B, noise - 172J, optimal control systems - 202, process 204D, robotics - 206F, ship maneuvers - 376G, structures - 204C, systems - 202, vehicles - 204C
controllability, systems theory - 200B
convection: combined with radiation - 408F, combined with radiation, and conduction - 408H, flow, incompressible - 354I, mass transfer - 414B, one phase, heat transfer - 402, two phase, heat transfer - 404, with diffusion - 414E
conversion, energy: direct - 400B, electrohydrodynamic, (EHD) - 374M, magnetohydrodynamic, (MHD) - 374M, thermonuclear - 374M, fuel, solid to liquid/gas - 500G
coolant (loss of), nuclear, systems accidents - 502G
cooling: by solar systems - 506D, flow in wall or boundary layers - 362Q, towers - 410J
corrosion - 274H
Couette flow (internal)- 364
coupling lubrication - 382L
couplings, machine elements - 294E
crack initiation - 274B
cracks, fracture mechanics - 274C, 276H-K
creep, viscoelastic - 252F, buckling - 262M, fracture processes - 274J, materials testing - 280K
creeping flow: incompressible - 354F, internal (pipe, channel, Couette) - 364H
critical speed of rotating shafts, vibrations - 154K
crystals, basic vibrations - 152C, liquid, rheology - 350J
currents, physical oceanography - 458C
curvature effects, internal flow - 364R
curved beams and rings, mechanics - 258L
cutting: lubricants - 382H, materials processing - 272H
cyclic loading: materials testing - 280H, plasticity, viscoplasticity - 254H
damage: mechanics - 276, processes - 274
dampers, machine elements - 294D
damping (internal friction): vibrations of solids - 152F, vibrations of structures - 156N
dams (earth): soil mechanics - 268G, ground structures - 284C
decay of vibrations, solids - 152F
deceleration systems, mobile structures - 288J
decentralized systems: systems theory - 200P, control systems - 202H
deep foundations, soil mechanics - 268C
deflagration, explosions - 170C
deformable body, dynamics - 150G
deformation, nonlinear and finite, elasticity - 250C, plasticity, viscoplasticity - 254C, viscoelasticity - 252C, cables, ropes, beams - 258B, plates, shells, membranes - 260B, structural stability, buckling - 262B
deformation, high rate forming, materials processing - 272K
delamination - 274K
delayed systems: systems theory - 200O, control systems - 202H
density measurement, in flow - 384F
deployable structures - 288J
desalination - 506L
design and systems theory - 200, methods - 200H, of machines (CAD) - 296D
design, codes, structural - 282P, criteria, earthquake, mechanics - 456G, of experiments -, 200Z, 202H, 384V, machines (CAD) - 296, manufacturing systems - 208E, processes - 208B, of products - 208B, of structures: limit - 282B, probabilistic 282E, reliability - 282G
detonation, dust, vapor - 170C
devices: heat transfer - 410, hoisting - 294M, lighter than air - 288G, propulsion - 418
diagnosis of faults - 204R
difference (finite), methods - 104
differential games, control systems - 202H
diffraction of waves: acoustic waves - 172H, in compressible fluids - 164F, in incompressible fluids - 162H, in solids - 158Q
diffuser vanes, machinery fluid dynamics - 380M
diffusers, internal flow in - 366
diffusion, mass transfer - 414D, biomechanics - 550H, combined effects - 414F, with convection - 414E, double effects - 414F, turbulent - 372L
digital: control systems - 204G
direct energy conversion - 400B
direction of flow, measurement and visualization - 384J
discrete systems: systems theory - 200N, control systems- 202D
discs: mechanics - 260K, vibrations - 154J
dislocations: elastic imperfections - 250F, physical theory in plasticity and, viscoplasticity - 254M
dispersion, environmental - 514B, turbulent - 372L
displacement (positive) machines or engines: machinery fluid, dynamics - 380T, internal combustion - 418E
displays, human factors engineering - 552B
disposal, hazardous waste - 514H
dissipators of energy in hydraulics - 352K
distributed parameter systems: systems theory - 200O, control systems - 202E
distribution systems, for energy - 506Q
divergence, static aeroelasticity - 166T
double diffusion, mass transfer - 414F
drag: aerodynamics - 378G, reduction in wall layers - 362S
drawing, materials processing - 272F
drilling: materials processing - 272H, oil and gas - 500D, rock mechanics - 270J
drives, machine elements - 294G
drops (liquid) formation - 360E, pendant, flow stability - 370I
dry film lubrication - 382H
drying, heat transfer devices - 410G
ducts: waves in incompressible fluids - 162J, rarified flow - 358F
dust detonations, and explosions - 170C
dynamic: behavior of composites - 256N, contact, impact - 160B, crack propagation - 276J, fracture processes - 274D, loading: materials testing - 280I, structures (basic) - 282L, rheological properties - 350E, stress measurement - 280I, structural stability, buckling - 262L
dynamics - II, attitude, astronautics - 168K, bodies (basic)- 150, bubbles - 360F, electromagneto-fluid - 374, fluid filled solids - 452H, fluids in machinery - 380, mechanisms 296G, naval hydromechanics -, 376C-P, nonlinear - 150K, plasma - 374, robotics - 206E, soils - 266K, solid particles, micromeritics - 450F, vibration - II, nuclear systems - 502B
earth, applied soil mechanics: dams - 268G, lateral pressures - 268H
earth sciences - VII
earthquake: prediction - 454E, mechanics - 456
economics, manufacturing - 208H
effectors (end) in robotics - 206B
EHD, (electrohydrodynamics)- 374M
elastic solids - 250, fluid filled - 452G, constants - 280G, fracture mechanics - 276B-D, stability in electromagnetic, fields - 264F, wave motions in - 158A-E
elasticity - 250, rock mechanics - 270D
elastodynamics of mechanisms, design - 296H
elastohydrodynamic, lubrication - 382D
elastomers, composite materials - 256V, materials processing - 272V
elastoplastic: buckling - 262N, media, plasticity and, viscoplasticity - 254I
electric: stress analysis, NDT - 280T, fields, flow in - 374E, fields, two phase convection - 404S, propulsion - 418L, transmission lines - 506Q
electroelasticity - 264D
electromagnetic: loading, impact on solids - 160D, fields, elastic stability in - 264F
electromagneto solid, mechanics - 264
electromagneto-fluid, dynamics - 374
electromechanical, systems - 204M,P
electronic equipment, heat transfer problems - 410N
element (boundary) methods -, 106A, 106B
element (finite) methods - 102
embankments, applied soil mechanics - 268G
embrittlement, fracture processes - 274H
emissions, exhaust - 416G
enclosures, convective heat transfer in - 402E
end effectors, robotics - 206B
energy - VIII, conversion, direct - 400B, EHD, MHD, thermonuclear - 374M, dissipators in hydraulics - 352K, dis tribution - 506Q, fossil fuels - 500, methods in elasticity - 250G, nuclear - 502, ocean - 506J, solar - 506B,D,F, storage - 506N, wind - 506J
engineering: applied meteorology - 458P, human factors - 552B, rehabilitation - 552F, reservoir - 452K, oil and gas - 500E
engines (see also motors), prime movers and propulsion - 418
environment - VIII
environmental, conditioning and control - 410I, embrittlement, fracture processes - 274G, mechanics - 514, tunnels, flow measurements - 384Q
environments (extreme), materials testing in - 280R
equilibrium (chemical), flow stability - 370H
equipment (sports) - 552K
ergonomics - 552B
erosion: fracture processes - 274I, hydraulics - 352M, soil, environmental fluid soil mechanics, applied - 268F
estimation, systems theory - 200E
estuaries, hydraulics - 352O
Euler equations, theory - 356A
evaporation, two-phase convective, heat transfer - 404O
excavation: rock - 270L, soil - 268I
exchangers (heat): containment structures - 290D, recuperators - 410B, regenerators - 410C
exhaust emissions - 416G
excitation: turbomachinery blades - 166J, vibrations in solids: random - 152D, transient - 152F
expansion waves in compressible fluids - 164B
expansive clays, basic soil mechanics - 266F
experimental methods and techniques (letter category "Z"): acoustics - 172Z, aerodynamics - 378Z, astronautics, celestial, orbital mechanics - 168Z, ballistics - 170Z, beams - 258Z, biomechanics - 550Z, buckling - 262Z, cables, ropes, beams - 258Z, celestial mechanics - 168Z, combustion - 416Z, composite materials - 256Z, conduction - 406Z, control of experiments - 200Z, 384V, convection, one phase - 402Z, convection, two phase - 404Z, data reduction - 200Z, design of experiment -, 200Z, 384V, dynamics - 150Z, damage processes - 274Z, earthquake mechanics - 456Z, electromagneto solid, mechanics - 264Z, environmental, mechanics - 514Z, explosions and ballistics - 170Z, flow, compressible - 356Z, electromagneto fluid - 374Z, free shear layers - 368Z, incompressible - 354Z, internal (inlets, nozzles, diffusers, cascades) - 366Z, internal (pipe, channel, Couette) - 364Z, multiphase - 360Z, rarified - 358Z, stability - 370Z, turbulent - 372Z, wall layers 362Z, fluid flow measurements, and visualization - 384, fracture processes - 274Z, fracture mechanics - 276Z, friction and wear - 292Z, geomechanics - 454Z, heat transfer -, 402Z, 404Z, 406Z, 408Z, hydraulics - 352Z, hydrology - 458F, impact on solids - 160Z, input parameters, synthesis - 200Z, kinematics, dynamics - 150Z, lubrication - 382Z, machinery fluid, dynamics - 380Z, mass transfer - 414Z, materials testing - 280, membranes - 260Z, meteorology - 458Z, naval hydromechanics - 376Z, oceanology - 458F, orbital mechanics - 168Z, parameters, input, synthesis of - 200Z, plasticity, viscoplasticity - 254Z, plates, shells, membranes - 260Z, porous media - 452Z, radiation, heat transfer - 408Z, reduction of data - 200Z, rheology - 350Z, robotics - 206Z, rock mechanics - 270Z, ropes - 258Z, shells - 260Z, soil mechanics: applied - 268Z, basic - 266Z, solid-fluid interactions - 166Z, stress analysis - 280, structures, basic - 282Z, stability (buckling) - 262Z, vibrations - 156Z, vibrations of elements - 154Z, synthesis of input, parameters - 200Z, system analysis - 200Z, thermomechanics, of solids - 412Z, vibrations of solids - 152Z, structural elements - 154Z, structures - 156Z, viscoelasticity - 252Z, viscoplasticity - 254Z, wave: motions in solids - 158Z, compressible fluids - 164Z, incompressible fluids - 162Z, wear - 292Z
experimental systems, analysis - 200Z
expert systems, systems and control - 204K
exploding wires, spark gaps - 170
explorations, geomechanics - 454Z
explosion - 170A,C,P
explosions and ballistics - 170
explosive loading, impact on solids - 160C
extended surfaces, heat transfer devices - 410D
external flow: convection - forced - 402B, natural 402D, peak heat flux, flow boiling - 404H, nucleate flow boiling - 404E, solid fluid interactions - 166C, solid boundary, stability - 370C
extinction, flame and fire - 416S
extreme environments, materials testing - 280R
extrusion, materials processing - 272D
factors: (human) engineering - 552B, (view) radiation heat, transfer - 408B
failure detection, isolation - 204R
failure mechanisms, rock mechanics - 270G
fanjet engines - 418I
fans, machinery fluid, dynamics - 380H-K
Fast Fourier Transforms - 106D
fastening - 298
fatigue: contact, friction and wear - 292E, fracture mechanics - 274E,F,G, corrosion - 274H, repeated loading, materials testing - 280H, thermal, thermomechanics of, solids - 412H
fault diagnosis - 204R
FDM, finite difference methods - 104
FEM, finite element methods - 102
fiber reinforced, composites - 256D,F
field, electric: effect on convective heat, transfer - 404S, flow in - 374E, electromagnetic, elastic, stability of solids in - 264F, magnetic, flow in - 374D, testing, applied soil, mechanics - 268Z, geomechanics - 454Z
film, boiling, convective heat transfer: flow - 404J, pool - 404I, lubrication - 382H, thin, waves in, incompressible fluid - 162D
filtering: multiphase flow - 360I, techniques: control systems - 202H, systems theory - 200G
finite: amplitude waves in, incompressible fluids - 162C, deformation: cables, ropes, beams - 258B, elasticity - 250C, plasticity - 254C, plates, shells, membranes - 260B, structural stability, buckling - 262B, viscoelasticity - 252C, viscoplasticity - 254C, difference methods, (FDM) - 104, element methods (FEM) - 102
fire: modeling - 416T, spread and extinction - 416S
fixed offshore structures - 286D
flame, flammability - 416
flexible tanks and containers, solid fluid interactions - 166H
flexural loading, materials testing - 280D
flexure of plates - 260C
flight loads, aeroelastic effects on - 166T
flight path, aerodynamics - 378J
flight tests, aerodynamics - 378O
floors, structural mechanics - 284J
flow: aerodynamic - 378, biomechanical - 550I, boundary layers - 362, compressible - 365, waves - 164, convection: one-phase - 402, two-phase - 404, combined modes - 408, with diffusion - 414E, electromagneto-fluid - 374, free shear layers - 368, hydraulics - 352, hydrology - 458B-F, incompressible - 356, waves - 162, internal: pipe, channel, Couette - 364, inlets, nozzles, diffusers, cascades - 366, lubricating - 382, (in) machinery - 380, measurement - 384, meteorology - 458G-Z, multiphase - 360, oceanography - 458B-F, plasma - 374, plastic, materials testing - 280L, (in) porous media - 452, rarified - 368, rheology - 350, shear layers, free - 368, solid fluid interactions - 166, solid particles, micromeritics - 450, stability - 370, turbulent - 372, visualization - 384, wall layers - 362
fluid, fluids: biomechanics - 550I, compressible - 365, waves - 164, convection: one-phase - 402, two-phase - 404, combined modes - 408, with diffusion - 414E, distribution systems - 506Q, electromagneto-fluid - 374, finite difference, methods - 104C, finite element methods - 102G, fuels - 416Q, hydrology - 458B-F, incompressible - 356, waves - 162, mechanics - V, mechanics applications, of FEM - 102G, meteorology - 458G-Z, non-Newtonian, in porous media - 452M, oceanography - 458B-F, oil - 500D-E, plasma - 374, porous media - 452, solid fluid interactions - 166, storage systems - 506N, working, prime movers and, propulsion systems - 418M
fluid-filled solids: dynamics - 452H, elastic behavior - 452G, sloshing - 162C
fluidic control systems - 204F
fluidized beds, porous media - 452F
flutter, solid fluid interaction - 166N
flux (heat): minimum, pool boiling - 404D, peak, pool boiling - 404C, peak, (external) flow boiling - 404H, (internal) flow boiling - 404G
FMS, flexible manufacturing systems - 208E
foam structures - 282K
foam, multiphase flows - 360G
force, measurement in flow - 384D
forced convection, heat transfer: external - 402B, internal - 402C, combined with natural - 402G
forging, materials processing - 272C
forming, materials processing - 272G,K
fossil fuels - 500
foundations: beams on, mechanics - 258G, deep, applied, soil mechanics - 268C, machine, applied, soil mechanics - 268D, mechanics, of - I, plates and shells on - 260H, shallow, applied, soil mechanics - 268B, vibrations of - 156B, vibrations of structural elements on - 154O
fractals, nonlinear dynamics - 150K
fracture: impact on solids - 160F, mechanics - 276, nuclear sytems - 502D, processes - 274, toughness, materials testing - 280M
framed structures, stability - 262G
frames: ground structures - 284E, vibrations - 154L
free: molecular flow - 358D, piston and wave engines - 418F, shear layers - 368, in turbulence - 372F, surface flow, compressible fluids - 356R, incompressible fluids - 354J, stability - 370P
freezing, heat conduction - 406I, devices and systems - 410G
fretting, fracture processes - 274I
friction: and wear - 292, internal (damping) - 152F, pipe losses, hydraulics - 352D, skin, measurement - 384D
fronts (contact), waves in compressible fluids - 164D
frost, soil mechanics - 266L
froth, multiphase flows - 360G
fuel: fossil - 500, combustion: solid - 416P, liquid - 416Q
furnaces - 416N
fuzzy systems - 200Q
gages (strain), stress analysis - 280W
Galerkin computational, methods - 106C
games (differential), control systems - 202H
gas: drilling mechanics - 500D, flow - 358, liquified, transport - 506Q, lubricants - 382F, reservoir engineering - 500E, solid, liquid mixtures - 360H, sound waves in - 172D, thermodynamic, properties - 400L, turbines: fluid dynamics - 380D, prime movers, propulsion systems - 418G
gaskets - 294I
gates, hydraulics - 352H
gears: lubrication - 382L, machine elements - 294G, rotary compressors, pumps, fluid dynamics - 380Q
generation of sound: by flow - 172C, by moving surfaces - 172B
geological criteria, earthquake mechanics - 456D
geomechanics - 454
geometric: pipe losses, hydraulics - 352D, properties, solid particles - 450B
geomorphology - 454B
geophysical aspects of fossil fuels - 500B
geotextiles - 268L
geothermal energy, systems - 506H
glaciology - 454H
glasses: composite materials - 256T, materials processing - 272T
granular media: heat conduction - 406G, mechanics, micromeritics - 450, wave motions in solids - 158M
gravity (low), flow in - 354P
gravity waves, incompressible fluids - 162D
gravity, geomechanics - 454I
grid development, finite difference methods - 104E
grillages - 284J
grinding: materials processing - 272I, micromeritics - 450D, rock mechanics - 270K, solid fossil fuels - 500F
ground: motion, earthquakes - 456C, structures, mechanics - 284, vehicles, mechanics - 288B
guidance: astronautics - 168K, robotics - 204F, systems and control applications - 204B
guide vanes, machinery fluid dynamics - 380M
guns, explosions - 170L
gusts, solid fluid interactions - 166R
gyrodynamics - 150I
hammer (water) in pipes, - 162J
harbors, hydraulics - 352P
hardening, work: plasticity, viscoplasticity - 254G, materials processing - 272B
hardness, materials testing - 280N
hardware (computer): computational methods - 106K, systems and control applications - 204I
hazardous waste, containment, disposal - 514H
heat: addition, boundary layers - 362Q, free shear layers - 368K, internal flow - 364l, 366K, turbulent flow - 372L, wall layers - 362Q, exchangers, structural mechanics - 290D, transfer - VI, biomechanics - 550L, conduction - 406, devices - 410, electromagneto-fluid - 374H, convection - 402-408, 414, fossil fuels - 500H, geomechanics - 454F, hydrology - 458D, meteorology - 458L, oceanography - 458D, plasma - 374H, porous media - 452I, radiation - 408, solar systems - 506D, systems - 410, thermodynamics - 400A, turbulent flow - 372L
heating, solar systems - 506D
helicopter rotors - 380R
helicopters - 288F
heterogeneous, combustion - 416L, ignition - 416C
highlift methods, aerodynamics - 378C
highways, applied soil mechanics - 268J
hoisting devices, machine elements - 294M
holographic techniques, stress analysis - 280R
homogeneous: turbulence - 372B
honeycomb structures - 282K
human factors - 552B
hybrid, computational methods - 106E
hydraulic: jumps - 352C, mechanisms, machine elements - 294L, structures: vibrations - 156E, forces on - 352I, turbines - 380E
hydraulics - 352
hydrodynamic lubrication - 382C
hydrodynamics: explosion - 170C, naval - 376, seismic - 456H
hydroelasticity, naval hydromechanics - 376A
hydrofoil, naval hydromechanics - 376N
hydrology - 458
hydromechanics, naval - 376
hydropower - 506J
hydrostatic lubrication - 382C
hypersonic flow - 356E, wall (boundary layers) - 362F, wind tunnel - 384Q
hypervelocity: impact on solids - 160E, launchers,
aerodynamics - 378P
ice: mechanics - 534F, transport - 352R
icing, aerodynamics - 378N
identification, systems theory - 200E
ignition, combustion - 416C
impact on solids - 160, fracture mechanics - 276I, materials testing - 280I
impedance (mechanical), vibrations of solids - 152F
imperfection sensitivity, structural stability - 262D
imperfections, elasticity - 250F
implosion hydrodynamics, explosions - 170C
impulsive loading, fracture mechanics - 276I
inclusion - 254E
inclusions: elasticity - 250H, plasticity - 254E, viscoelasticity - 252H, viscoplasticity - 254E
incompressible fluids: flow - 354, free shear layers: laminar - 368B, turbulent - 368D, waves - 162
inducer blading, machinery fluid dynamics - 380L
inelastic thermomechanics of solids - 412E
inferences, statistical, experimental systems analysis - 200Z
infinite elastic media, wave motions - 158D
inflatable: ground structures - 284J, membranes, mechanics - 260J
initiation of cracks - 274B
injection, mass: internal flow - 364T, 366L, mass transfer - 414H, wall (boundary) layers - 362N
inlets, internal flow - 366, guide vanes, machinery fluid, dynamics - 380M
instabilities: astronautics - 168K, cracks - 276H, dynamic, vibrations - 152F, flow - 370, electromagneto-fluid and, plasma dynamics - 374A, ships - 376G, soil mechanics - 268F, structural - 262
instrumentation: systems and control applications - 204I, materials testing - 280T, aerodynamics - 378O-P
insulation, heat transfer devices and systems - 410H
integrated (computer), manufacturing - 208E
interface, man-machine - 552B
interfaces, flow stability - 370P
interfacial bonding - 298D
interference (multibody): naval hydromechanics - 376A, aerodynamics - 378H
interferometric techniques, stress analysis - 280R
intermittent turbulence - 372P
internal: combustion engines - 418E, compressible flow - 356H, flow - 364, 366, solid boundary - 370B, flow boiling - 404F, peak heat flux - 404G, forced convection - 402C, friction, vibrations of solids - 152F, waves, incompressible fluids - 162L, flow, solid fluid interactions - 166D
inverse scattering transform, computational methods - 106E
inviscid-viscid (shock) interaction, compressible fluids - 164D
ion beam processing of, materials - 272R
ionic propulsion- 418L
irrotational flow, incompressible - 354B
isolation, structural vibration - 156O
isotropic turbulence- 372B
J-integral methods, fracture mechanics - 276F
jet pumps, machinery fluid dynamics - 380N
jet engines - 418I
jets, free shear layers - 368, stability - 370P
joining - 298
joints biomechanical - 550B, mechanical - 298B
kinematics - 150, mechanisms, design - 296F, robotics - 206E
kinesiology, biomechanics - 550D
kinetic theory: rarified flow - 358B, rheology - 350C
kinetics, combustion - 416I
Knudsen flow, rarified flow - 358F
laminar: flame propagation - 416D, free shear layers, compressible - 368C, incompressible - 368B, internal flow - 364B, wall (boundary) layers - 362C
laser processing of, materials - 272R
lasers, flow measurement and visualization - 384M
lateral earth pressure, applied soil mechanics- 268H
launchers (hypervelocity), aerodynamics - 378P
layers: free shear - 368, turbulent - 372F, wall (boundary) - 362, atmospheric - 458M, interaction with, shock waves - 362G, turbulent
layered media: mechanics of composites - 256H, waves - 158L
laying-up, materials processing - 272M
learning systems - 200J
least-squares computational methods - 106C
lift, aerodynamics - 378G
lifting bodies, aerodynamics - 378C
ligaments, biomechanics - 550B
lighter than air structures - 288G
limit design of structures - 282B
linear theory: elastic fracture mechanics - 276B, elasticity - 250B, vibrations of solids - 152B, viscoelasticity - 252B
linkages, machines - 294J
liquefaction (soil and sand), soil mechanics - 266H
liquid, liquids: atomized, properties, micromeritics - 450J, crystals, rheology - 350J, fuel, conversion of, solid fuel to - 500G, fuels, combustion - 416Q, lubricants - 382E, multiphase flow - 360B-H, metal flow: heat transfer - 402M, electromagneto-fluid, and plasma dynamics - 374, natural gas transport - 506Q, propellers in, - 380F, properties, hydraulic - 352Q, sloshing - 166D, sound waves - 172E, thermodynamic, properties - 400L, underwater acoustics - 172E
loading: cyclic and variable, plasticity, viscoplasticity - 254H, impact on solids: electromagnetic - 160D, explosive - 160C, impulsive, fracture - 276I, materials, testing - 280B-F, 280H-J, structures (basic) - 282L-M
loads: aerodynamic - 378M, flight, aeroelastic effects - 166T, waves on structures, hydraulics - 352J
locomotion, robots - 206D
locomotives, vibrations - 156G
loop (open), control systems - 202H
loss: of coolant accident, nuclear systems - 502D, pipe, hydraulics - 352D
low density flows, convection - 402J
low gravity environment, flow in - 354P
low Reynold's number, incompressible flow - 354F
low temperature properties of matter - 400L
lubrication - 382
machines: design - 296, elements - 294, vibrations - 156K, foundations, applied soil, mechanics - 268D, fluid dynamics - 380, lubrication - 382, rotating - 156M, tools, vibrations - 156L, turbo - 156M, wear - 292
machining - 272H
macroscopic characterization of composite material - 256L
magnetic fields, flow in - 374D
magnetoelasticity - 264C
magnetostriction, vibrations of solids (basic) - 152F, 264C
magnets, stress analysis - 264C
man-machine interface- 552B
management, manufacturing - 208H
maneuvers, naval hydromechanics - 376G
manufacturing - 208
Marangoni flows - 354P
marine: structures, vibrations - 156F, applications, ocean and coastal, structures - 282B
mass: addition to free shear, layers - 368K, flow, measurement and visualization - 384H, transfer - 414, turbulent - 372L, transport by waves - 162A
material(s) (see also media): acoustic properties - 172I, biomaterials - 550P, characterization: plastic - 254F, rheological - 350M, viscoelastic - 252I, viscoplastic - 254F, composite: mechanics - 256, thermomechanics - 412L, vibrations of structural elements - 154N, fatigue characteristics - 274E, friction - 292G, nonlinear, elastic - 250C, viscoelastic - 252C, plastic, viscoplastic - 254C, porous and granular, heat transfer - 406G, processing - 272, radiation interaction, nuclear systems - 502H, sandwich, vibrations of structural elements - 154M, solar - 506F, superconducting - 264G, testing - 280
matter, properties of - 400L
measurement: flow - 384, stress - 280, temperature - 400S, geomechanical - 454Z
mechanical, impedance, vibrations of solids - 152F, joints - 298B, properties: atomized liquids, soil mechanics - 266E, solid particles, micromeritics - 450C, rock mechanics - 270B, tissues and blood - 550E, stabilization, soil mechanics - 268L
mechanics:basic methods - I, bio - 550, celestial - 168, composite material - 256, computational - 102, 104, 106, continuum - 100, earthquake - 456, electromagneto solid - 264, environmental - 514, fluids - V, body - 550I, nuclear systems - 502E, fracture - 276, nuclear systems - 502D, geo - 454, ice - 514F, mining - 500C, muscle - 550C, oil and gas drilling - 500D, orbital - 168, rock - 270, snow - 514F, soil - basic - 266, applied - 268, solid - IV, sports - 552K, statistical - 400E, structural - 282-290, nuclear systems - 502C, thermofracture - 412J
mechanisms: dynamics - 296G, elastodynamics - 296H, failure, rock mechanics - 270G, kinematics - 296F, machine elements - 294, transport, heat transfer - 402P, turbulence - 416I, viscoelasticity - 252H
mechatronics - 204M
media (see also materials): anisotropic: elasticity - 250I, heat conduction - 406F, plasticity - 254K, viscoelasticity - 252K, viscoplasticity - 254K, elastoplastic, - 254I, fiber reinforced - 256D,F, layered, composites - 256H, multiphase, heat conduction - 406H, nonhomogeneous, porous, random - 452, elasticity - 250J, fracture me chanics - 276G, heat convection - 402S, 404V, mass transfer - 414I, sound waves in - 172G, plasticity - 254K, viscoelasticity - 252K, visco plasticity - 254K, nonlinear: elastic - 250C, elastic, fracture mechanics - 276C, viscoelastic - 252C, plastic, viscoplastic - 254C, participating, radiative heat transfer - 408E, particulate, composite material mechanics - 256B, plastic, fracture mechanics - 276F, porous - see, "nonhomogeneous" above, random - see, "nonhomogeneous" above, viscoelastic, fracture mechanics - 276E, wave motions in solids, 158D, 158K-N
melting, conduction heat transfer - 406I
membranes - 260, vibrations of structural, elements - 154F
metal, liquid, flow, electromagneto-fluid - 374, convective heat transfer - 402M, sheet, forming - 272G, working, lubricants - 382H
metallurgy - 272N
meteorology - 458
MHD - 374M
microbiomechanics - 550G
microelectromechanics - 204P
micromechanics, composite materials - 256J
micromechanisms: fracture mechanics - 276L, fracture processes - 274M, machine elements - 294P
micromeritics - 450
microprocessing, of materials - 272R
minimum heat flux, pool boiling, convective heat transfer - 404D
mining mechanics - 500C
mist flows, convective heat transfer- 404K
mixing layers, fluid mechanics - 368
mixtures: gases, rarified flow - 358G, multiphase flow - 360B-H
mobile structures - 288, offshore, ocean, coastal - 286E
mobility: devices, reabilitation - 552F, robotics - 206D
modeling - 100D, combustion, flame, fire - 416T, computer aided design - 296D, constitutive, soil mechanics - 266C, explosions and ballistics - 170P, physical phenomena - 100D, rheological materials - 350M, systems theory, design - 200I, turbulence - 372Q
molecular (free) flow - 358D
monitoring of wear - 292I
motion(s): control - 204B, ships - 376C, snow - 450G, stability, basic dynamics - 150H, ground, earthquakes - 456C, waves in solids - 158
motors (engines), rocket - 418H
movers, prime: engines - 418, robotics - 206C
moving surfaces, sound generation - 172B
multibody interference, naval hydrodynamics - 376A, systems, dynamics - 150F
multiphase: combustion - 416L, flows - 360, in porous media - 452D, lubrication - 382K, media, heat conduction - 406H
muscle biomechanics - 550C
n-body problem, celsetial mechanics - 168D
nanotechnology - 204P
natural convection: external - 402D, in enclosures - 402E, combined with forced - 402G
natural (liquified) gas, transport technology - 506Q
naval hydrodynamics - 376
Navier-Stokes equations, theory - 354A, 356A
navigation: astronautics - 168K, systems and control applications - 204B
NDT (nondestructive testing or techniques) - 280R-U
NM (numerial machining) - 272H
noise control - 172J
noise reduction - 172J
non-Newtonian fluids: flow stability - 370G, heat convection - 402L, incompressible flow - 354R, internal flow - 364M, 366H, porous media - 452M, rheology - 350D, turbulence - 372K, wall (boundary) layers - 362K
nondestructive testing or techniques - 280R,S,T,U
nonequilibrium effects in: compressible flow - 356K, free shear layers - 368L, flow stability - 370H, internal flow - 364G, 366E, turbulence - 372O, wall (boundary) layers - 362T
nonhomogeneous media: elasticity - 250J, fracture mechanics - 276G, plasticity - 254K, rock mechanics - 270F, sound waves - 172G, viscoelasticity - 252K, viscoplasticity - 254K, wave motions in solids - 158L
nonhomogeneous beams, mechanics - 258
nonisotropic (see anisotropic)
nonlinear: dynamics - 150K, materials:elastic - 250C, viscoelastic - 252C, plastic, viscoplastic - 254C, theory and problems-, cables, ropes, beams - 258B, flow stability - 370D, elastic fracture, mechanics - 276C, elasticity - 250C, heat conduction - 406D, control systems - 202C, plasticity - 254C, plates, shells, membranes - 260B, solid fluid interactions - 166B, structural stability, buckling - 262B, structures (basic) - 282F, systems - 200M, thermoelasticity - 412D, viscoelasticity - 252C, viscoplasticity - 254C, waves in solids - 158G, fluids - 162C
nonuniform beams - 258K
nonviscous flow, incompressible - 354C
normal stresses(2nd order) in rheology - 350G
nozzles: hydraulics - 352H, internal flow - 366
nuclear: power - 418K, systems - 502
nucleate: flow boiling (external) - 404E, pool boiling - 404B
numerical, control systems - 204G, machining - 272H
observability, systems theory - 200B
obstructions: hydraulics - 352G, internal flow - 364P, 366M
ocean structures - 286, solid fluid interactions - 166K
oceanography, -ology - 458C-F
offshore structures - 286D-E
oil and gas: drilling mechanics - 500D, reservoir engineering - 500E
open channels: flow, hydraulics - 352C, waves in fluids - 162J
open loop control systems - 202H
operator performance - 552B
optical techniques: flow measurement and, visualization - 384M, stress analysis, NDT - 280R
optimal control systems - 202
optimization, control systems - 202B, machine design - 296E, performance of internal flow through inlets, nozzles, diffusers, cascades - 366N, structural - 282C, trajectory, astronautics - 168K
orbital mechanics - 168G
organs, biomechanics - 550F
orifices, hydraulics - 352H
orthotics, rehabilitation engineering - 552F
oxidation, combustion - 416R
oxidizers - 416R
packings, particles, micromeritics - 450H
Pade approximant, computational methods - 106E
parachutes - 288J
parameter (distributed) systems: systems theory - 200O, control systems - 202E
participating media, radiative heat transfer - 408E
particle kinematics - 150B, dynamics - 150D
particles: mixtures multiphase, flows - 360B, 360H, micromeritics - 450
particulate composite, material mechanics - 256B
path (flight), aerodynamics - 378J
pattern recognition, systems theory - 200L
peak heat flux:flow boiling (external) - 404H, flow boiling (internal) - 404G, pool boiling - 404C
pendant drops, flow stability - 370I
performance: aerodynamics - 378I, internal flow (inlets, nozzles, diffusers, cascades) - 366N, operator, human factors - 552B, prime movers and, propulsion systems - 418C, ship, naval hydromechanics - 376C
permafrost, soil mechanics - 266L
perturbation computational methods - 106G
perturbations, orbital, celestial mechanics - 168D
phase, movement, soil - 266D, change: heat conduction - 406I, of solids under thermal, stress - 412K, one-phase convection 402, two-phase convection - 404
photoelasticity, stress analysis - 280R
photonic propulsion - 418L
photoplasticity, stress analysis - 280R
photoviscoelasticity, stress analysis - 280R
physical: explosion - 170C, phenomena, modeling - 100D, oceanography - 458C, theory: plasticity - 254M, viscoelasticity - 252H, viscoplasticity - 254M
piezoelectricity, electromagneto solid mechanics - 264E
piles, applied soil mechanics - 268C
pipe, pipes, piping: containment structures - 290I, fluid flow in, solid fluid interactions - 166I, internal flow in - 364, turbulence - 372H, heat transfer devices - 410F, losses, hydraulics - 352D, structural stability, buckling - 262J, waves in fluids - 162J
pipeline technology - 506Q
piston (free) engines - 418F
plasma dynamics - 374
plastic: buckling of structures - 262N, flow, materials testing - 280L, waves in solids - 158H
plasticity - 254, fracture mechanics - 276F, materials processing, applications - 272B, soil mechanics - 266J, rock mechanics - 270D
plastics: composite materials - 256V, materials processing - 272V
plates - 260, elastic, waves in solids - 158C, structural stability - 262H, vibrations - 154G, thick plates - 154I
platforms, offshore - 286D-E
plumes, free shear layers, fluid mechanics - 368
pneumatic: mechanisms, machine elements - 294L, systems and control - 204F
pollutants in, porous media - 452C
ponds, solar - 506F
pool boiling - 404B-D, 404I
pore pressure, soil mechanics - 266D
porous: media - 452, heat conduction - 406G, heat convection - 402S, 404V, mass transfer - 414I, sound waves in - 172G, wave motions in solid - 158M, walls, internal flow with - 364O
position applications, of robotics - 206G
positive displacement machines or engines: fluid dynamics - 380T, propulsion systems, prime movers - 418E
postbuckling, structural stability - 262
powder metallurgy, materials processing - 272N
power systems: control - 204E, nuclear - 418K
prediction of earthquakes - 454E
pressure: lateral earth, soil mechanics - 268H, measurements in flow - 384E, particle packings, micromeritics - 450H, pore, soil mechanics - 166D, structural components, under - 290J, vessels - 290B, structural stability, buckling - 262J, under external, pressure - 290H
prestressed concrete - 282I
prime movers: propulsion systems - 418, robotics 206C
probabilistic design, of structures - 282E
process control systems - 204D
process design, manufacturing - 208B
processes, fracture - 274
processing, materials - 272
product design, manufacturing - 208B
propellers: flutter, solid fluid interaction - 166N, in air, machinery, fluid dynamics - 380R, in liquids, machinery, fluid dynamics - 380F
propulsion: electromagneto fluid dynamics - 374M, ship - 376I, systems - 418
prosthetics, rehabilitation - 552F
pumped hydro storage - 506N
pumps - 380H-Q
quasi-steady thermoelasticity of solids - 412B
radiation: flame - 416M, heat transfer - 408, nuclear, interaction with materials - 502H, railways, applied soil mechanics - 268J
ramjets - 418J
random (see also stochastic): vibration in solids - 152D, loading of structures - 282l, media, sound waves in - 172G, waves or media in solids - 158N
rapid solidification, materials processing - 272P
rarefied gas flow - 358
reactions (chemical) in: compressible flow - 356K, convective heat transfer - 402N, free shear layers - 368L, incompressible flow - 354M, internal flow - 364G, 366E, mass transfer - 414G, rheological flows - 350L, turbulence - 372O, wall (boundary) layers - 362T
reactor vessels, structure - 290B
realizability, systems theory - 200B
reattachment of wall (boundary) layers - 362M, 366J
recognition (pattern), systems theory - 200L
recoil in rheology - 350E
recuperator, heat transfer devices - 410B
reduction (of drag), wall or boundary layers - 362S
reentry, orbital mechanics - 168P
reflection of waves: acoustic waves - 172H, compressible fluids - 164F, incompressible fluids - 162H, solids - 158Q
refraction of waves: acoustic waves - 172H, compressible fluids - 164F, incompressible fluids - 162H, solids - 158Q
regenerative turbomachinery, fluid dynamics - 380T
regenerators, heat transfer devices - 410C
rehabilitation engineering - 552F
reinforced: concrete: structures (basic) - 282H, vessels, containment, structures - 290G, (fiber) composite material, mechanics - 256D,F
relaminarization: internal flow - 364D, wall or boundary layers - 362E
relaxation: materials testing - 280K, stress: rheology - 350E, viscoelasticity - 252G
reliability design: machines - 296I, structural mechanics - 282G
rendezvous, astrodynamics - 168P
repeated loading (fatigue), materials testing- 280H
reservoir engineering - 452K, oil and gas - 500E
residual stresses: elasticity - 250K, materials processing - 272L, measurement - 280, plasticity, viscoplasticity - 254L
resistance: contact, heat conduction - 406E, ship - 376C
retardation of cracks in fracture mechanics - 276K
Reynolds number (low), incompressible flow - 354F
rheological properties of, soils - 266I
rheology - 350
rigid body: kinematics - 150B, dynamics - 150D
rings: mechanics - 258L, structural stability, buckling - 262F, vibrations - 154D
robotics - 206
robustness, systems theory, design - 200D
rock mechanics - 270, geothermal systems - 504D
rocket motors - 418H
rods: vibrations - 154B, wave motions in solids - 158B
rolling, materials processing - 272E
roofs, ground structures - 284J
roots, machinery fluid, dynamics - 380Q
ropes: mechanics - 258, vibrations - 154C
rotary compressors and, pumps - 380Q
rotating: discs, blades, shells - 260K, flows, compressible - 356M, flows, incompressible - 354K, waves - 162K, flows, stability - 370K, fluids or surfaces: convection - 402I, free shear layers - 368H, internal flow - 364K, turbulence 372J, wall (boundary) layers - 362P, machines, turbomachinery, vibrations - 156M, shafts: mechanics - 258M, vibrations - 154K
rotational (nonviscous) flow, incompressible - 354C
rotor: blading, machinery fluid, dynamics - 380L, flutter, solid fluid interactions - 166N, helicopter, machinery, fluid dynamics - 380R
roughness of surfaces, wall layers, fluid dynamics - 362O: internal flows - 364N
rubbers: composite materials - 256V, materials processing - 272V
runways, applied soil mechanics - 268J
salinity, ocean energy systems - 506J
sampling, applied soil mechanics - 268Z
sand liquefaction, basic soil mechanics - 266H
sandwich: materials, vibrations of, structural elements - 154M, plates, mechanics - 260G, structures (basic) - 282J
scattering: acoustic waves - 172H, (inverse) transforms, computational, methods - 162H, waves in, compress ible fluids - 164F, waves in, incompressible fluids - 162H, waves in solids - 158Q
scouring, hydraulics - 352M
screws, machinery hydrodynamics - 380Q
seals, machine elements - 294I
second order stresses, rheology - 350G
secondary flow: internal - 364R, 366G
sediment transport, hydraulics - 352M
seepage, porous media - 452C
seismic hydrodynamics, earthquake mechanics - 456H
seismicity, earthquake mechanics - 456B
seismology, geomechanics - 454D
semi-infinite elastic media, wave motions in - 158D
sensitivity: structural stability, buckling - 262D, systems theory - 200F
sensors: robotics - 206F, systems and control - 204H
separated flows: convective heat transfer - 402H, internal - 366J, wall (boundary) layers - 362M
settlement, basic soil mechanics - 266G
shafts, rotating, mechanics - 258M, vibrations - 154K
shakedown, limit design of structures - 282B
shallow foundations, applied soil mechanics - 268B
shear: layers (free) - 368, turbulent - 372F, loading, materials testing - 280E
sheet metal forming - 272G
shells: mechanics - 260, structural stability, buckling - 262I, vibrations - 154H, 154I, wave motions in solids - 158C
shielding from noise - 172J
ships: mobile structures - 288C, naval hydromechanics - 376, structural vibrations - 156H
shock: biomechanics - 550K, boundary layer, interaction - 362G, thermal, in solids - 412G, tubes and tunnels - 384Q, waves in fluids - 164D, viscid-inviscid, interaction - 164D
silos, containment structures - 290K
simulation: earthquake mechanics - 456J, systems theory, design - 200I
singularities: elasticity - 250E, plasticity, viscoplasticity - 254D
skeletal biomechanics - 550B
skin friction, flow measurements - 384D
slamming of ships, naval hydromechanics - 376C
slip (transition) flow, rarified flow - 358C
sloshing of liquids, in containers - 166D
slurries, multiphase flow - 360B
smart structures - 282D
snow: mechanics - 514F, motion - 450G
software, computational: finite element methods - 102L, finite difference, methods - 104E, other computational, methods - 106I, systems and control - 204K
soil mechanics: basic - 266, applied - 268
soil-structure interaction, earthquakes - 456E
solar energy systems - 506B,D,F
soldering - 298C
solid mechanics - IV
solid, boundary, flow stability - 370B-C, film lubricants - 382H, fluid interactions - 166, convection - 404R, fossil fuel problems - 500F,G, fuels, combustion - 416P, impact on - 160, micromeritics - 450, particles: in multiphase, flows - 360B, 360H, micromeritics - 450, porous media - 452, sound waves in - 172F, thermomechanics of - 412, vibrations (basic) - 152, wave motions in - 158
solidification (rapid), materials processing - 272P
solitary waves in incompressible fluids - 162C
sonic boom - 164D
sound - 172
space: heating: devices, systems - 410, by solar systems - 506D, vehicles, satellites - 288I, structural vibrations - 156J
spacestations, vibrations - 156J, as structures - 288I
spallation: impact on solids - 160F, fracture processes - 274K
spark gaps, explosions - 170C
special perturbations, celestial mechanics - 168D
spillways, ground structures - 284C
spinal trauma, biomechanics - 550J
sports mechanics - 552K
spray flow, multiphase flow - 360G
spreading of fire, flame - 416S
springs: machine elements - 294D, vibrations - 154E
stability: aerodynamics - 378K, aeroelastic effect on, solid fluid interactions - 166T, applied soil mechanics - 268F, stabilization - 268L, attitude, orbital, astronautics - 168K, celectial mechanics - 168K, crack, fracture mechanics - 276H, elastic, in, electromagnetic fields - 264F, flame (and stabilization) - 416F, flow - 370, porous media - 452E, machinery fluid, dynamics - 380C, motion, dynamics - 150H, orbital mechanics - 168K, ships - 376G, structural, buckling - 262, systems theory, design - 200D, thermomechanics of, solids - 412H, 416F, 452L
stall, aerodynamics - 378G
stamping, materials processing - 272G
static: aeroelasticity, solid fluid, interactions - 166T, vapor condensation, convective heat transfer - 404M
statics of solid particles, micromeritics - 450E
statistical: mechanics - 400E, theory of rheology - 350C
stator vanes, machinery fluid mechanics - 380M
steady:heat conduction - 406B, internal flow - 366B, thermoelasticity - 412B
steam engines, turbines - 418D
stiffened: plates and shells - 260G, structures, stability, buckling - 262K
stilling basins, hydraulics- 352K
stochastic effects, (see also random), computational mechanics 106F, fracture processes - 274X, systems theory, design - 200Q, control systems, 202F, vibrations of solids - 152D
storage, (energy) systems - 506N, hazardous waste - 514H, thermal - 410L
storms - 458K
strain gages, stress analysis - 280W
strain life bases analysis of fatigue - 274F
stratified flow: free shear layers - 368F, hydraulics - 352F, incompressible fluids - 354J, waves - 162L, internal - 364J, stability - 370J, turbulent - 372I
strengthening, rock mechanics - 270I
stress: analysis of fatigue - 274F, analysis (experimental) - 280, analysis of magnets - 264C, concentrations: elastic - 250E, plastic, viscoplastic - 254D, corrosion, fracture - 274F, instrumentation - 280T, intensity factor, calculations - 276D, normal, second order, rheology - 350G, relaxation - 252G, materials testing - 280K, rheology - 350E, residual: elastic - 250K, materials processing - 272L, plastic, viscoplastic - 254L, rock mechanics - 270H, thermal, solids with phase, change - 412K
strings: mechanics - 258C, vibrations of structural elements - 154C
strong ground motion, earthquakes - 456C
structur-al, -es: active control - 282D, applications of FEM - 102C, basic - 282, coastal - 286, composite materials applications - 256Q, containment - 290, continuum, rheology - 350K, elastic, waves motions - 158E, elements of, vibrations - 154, flexible, wave interaction - 166F, fluid interactions, nuclear 502F, ground - 284, hydraulic, forces on - 352I, mechanics of: nuclear systems - 502C, mobile - 288, ocean - 286, interaction with - 166K, optimization - 282C, response to earthquakes - 456F, soil - 266B, smart - 282D, stability, buckling - 262, turbulent flow - 372P, underwater - 286F, vibrations - 156, in fluids - 166E, wave loads, hydraulics - 352J
subcritical crack propagation, fracture processes - 274C
sublimation, mass and heat transfer - 414C
submarines: fluid dynamics, naval - 376N, structural mechanics - 288C
subsonic: flow, compressible - 356B, wind tunnels - 384Q
suction: internal flow - 364T, 366L, mass transfer - 414H, wall (boundary) layers - 362N
supersonic: combustion - 416K, flow, compressible - 356D, wind tunnels - 384Q
superconducting materials, mechanics - 264G
suppression of flutter, solid fluid interactions - 166N
surface(s): control: aerodynamics - 378B, naval, hydromechanics - 376G, extended, heat transfer devices - 410D, flow, free, compressible - 356R, incompressible - 354J, fluid dynamic surface effects, naval hydromechanics - 376N, flames, inter action - 416H, (free) flow, incompressible - 356R, stability - 370P, friction and wear - 292H, gas interaction, rarified flow - 358E, jet, interaction with - 368J, moving, sound generation by - 172B, radiative heat transfer - 408D, rotating: compressible flow - 356M, convection - 402I, flow stability - 370K, free shear layers - 368H, incompressible flow - 354K, internal flow - 364K, turbulent flow - 372J, wall, boundary layers - 362P, roughness, wall, boundary layers - 362O, tension: convection - 404P, flow, incompressible - 354P, lubrication - 382K, waves on - 158F
surging of liquids in pipes - 162J
suspensions, rheology - 350I
swirling flow, internal - 364I, 366F
synthesis: input parameters, experimental systems analysis - 200Z, machine design - 296B
systems: control - 202, analysis, experimental - 200Z, computer hardware - 106K, control applications - 204, manufacturing - 208, optimal control - 202, robotics - 206, stability, machinery fluid dynamics - 380C, theory and design - 200
tanks: containment structures - 290K, flexible, solid fluid interaction - 166H
tectonics, geomechanics - 454C
temperature measurement - 400S
tension, surface: convective heat transfer - 404P, flow, incompressible - 354P, lubrication - 382K
testing: field, applied, soil mechanics - 268Z, flight, aerodynamics - 378O, materials - 280
thermal: boundary layers - 362J, convection flow: compressible fluids - 356L, incompressible fluids - 354I, energy storage - 506N, explosion - 170C, instability in convection - 402F, loading: materials testing - 280J, structures (basic) - 282M, lubrication, effects in - 382J, sciences - VI, solar energy - 506D
thermodynamics - 400, continuum mechanics - 100C, porous media - 452I
thermoelasticity - 412B-D, lubrication - 382J
thermoelectric: solar energy - 506F, effects in solids - 412F
thermofracture mechanics - 412J
thermomagnetic effects, in solids - 412F
thermomechanics - 412, friction and wear -292F
thermonuclear energy conversion - 374M
thick plates and shells-, mechanics - 260I, vibrations - 154I
thin films, waves in incompressible fluids - 162F
thin walled beams - 258H
three-dimensional: flow in, incompressible fluids - 354E, layers, fluid dynamics - 362H, problems, elasticity - 250D
tidal energy - 506J
tires, mobile structures - 288B
tissues, biomechanics - 550E
tools (machine) vibrations - 156L
topography, friction and wear - 292H
torsional loading: beams - 258F, materials testing - 280E, plates - 260C
toughness (fracture), materials testing - 280M
towers: cooling, heat transfer devices - 410J, structural mechanics - 284J, structural vibrations - 156C
trafficability, applied soil mechanics - 268K
trains (gear), machines - 294G
trajectories: aerodynamics - 378J, optimization, astronautics - 168K
transfer: heat - VI, biomechanics - 550L, conduction - 406, 408, convection - 402, 404, 408, devices - 410, fossil fuels - 500H, geomechanics - 454F, hydrology - 458D, meteorology - 458L, oceanography - 458D, porous media - 452I, solar energy - 506D, mass - 414, orbital, astronautics - 168G
transform methods in computational mechanics - 106D,E
transient(s): convective heat transfer - 404Q, excitation, in solids - 152F, heat conduction - 406C, loss of coolant accidents, nuclear systems - 502G, mass transfer - 414J, reservoir engineering, porous thermoelasticity - 412C
transition: boiling, convection - 404L, flow, rarified flow - 358C, laminar-turbulent: wall (boundary) layers - 362E, internal flow - 364D
transmission, electric lines and towers - 506Q
transonic: compressible flow - 356C, wind tunnels - 384Q
transport: biomechanics, (eg diffusion) - 550H, convection mechanisms - 402P, ice, hydraulics - 352R, liquid natural gas - 506Q, mass, by waves, incompressible fluids - 162A, sediment, hydraulics - 352M
trauma (brain and spinal), biomechanics - 550J
triaxial loading, materials testing - 280C
tribology: friction and wear - 292, lubrication - 382
trusses: structural mechanics - 284E, vibrations - 154L
tsunamis, earthquake mechanics - 456I
tubes: rarified flow in - 358F, shock, flow measurements - 384Q
tunnels: techniques in, flow measurement - 384Q, applied soil mechanics - 268I, rock mechanics - 270L, structural mechanics - 284D
turbines: machinery fluid, dynamics - 380D-E, prime movers - gas - 418G, steam - 418D
turbomachinery: blades, excitation, solid fluid interactions - 166J, regenerative, machinery, fluid dynamics - 380T, vibrations - 156M
turbulence - 372, atmospheric - 458K, flame propagation - 416E, free shear layers - 368D-E, electromagneto fluid, and plasma dynamic - 374A, internal flow - 364C, solid fluid interactions - 166R, wall (boundary) layers - 362D
ultrasonic waves in solids - 158J
underground: explosions - 170C, structures - 284J
underwater: acoustics - 172E, explosions - 170C, structures and habitats - 286F
unstable configurations in convection - 402F
unsteady flow: aerodynamics - 378L, combustion - 416J, compressible flow - 356F, convective heat trnasfer - 402O, hydraulics - 352E, incompressible flow - 354G, internal flow - 364E, 366C, machinery fluid, dynamics - 380C, porous media - 452E, wall or boundary layers -362I
vacuum, materials testing - 280Q
valves, hydraulics - 352H
vanes on stators, inlet guides, and diffusers, machinery fluid dynamics - 380M
vapor: detonation, explosion - 170C, condensation, convection - 404M, 404N, turbines - 380D
variable mass bodies: celestial mechanics - 168D, orbital mechanics - 168G, dynamics - 150F
variational computational methods - 106H, in elasticity - 250G
vehicles: aerospace, systems and control - 204C, ground - 288B, space, satellites - 288I, structural vibrations - 156G
velocity measurement, in flow - 384B
vessels, pressure: containment, structures - 290B, 290E-H, structural stability, buckling - 262J
vibration and dynamics - II, biomechanics - 550K, nuclear systems - 502B
vibrations in, compressible fluids - 164A, incompressible fluids - 162A
view factors, radiative heat transfer - 408B
viscoelastic - 252, fracture mechanics - 276E, rock mechanics - 270D, soil mechanics (basic) - 266J, structural stability, buckling - 262M, waves in solids - 158I
viscoplastic - 254, media - 254I, soil mechanics (basic) - 266J, waves in solids - 158H
viscosity: (volume), rheology - 350F, flow measurement and visualization - 384I
viscous flow: compressible - 356G, incompressible - 354D
visualization of flow - 384
volume viscosity, rheology - 350F
vortices: compressible fluids - 356F, flow stability - 370M, incompressible fluids - 354C
vorticity measurements - 384J
vulcanology, geomechanics - 454G
wakes, free shear layers - 368
wall (boundary layers) - 362
walls (porous), internal flow - 364O
waste (hazardous), containment and disposal - 514H
water: dispersion, environment - 514E, hammer, waves in, incompressible fluids - 162J, tunnels, flow measurements - 384Q
waterways, hydraulics - 352N
waves: acoustics - 172, compressible fluids - 164, electromagneto fluids - 374A, flexible structures, interaction with - 166F, incompressible fluids - 162, loads on hydraulic, structures - 352J, machines, engines: fluid dynamics - 380T, prime movers - 418F, motions in solids - 158, oceanography - 458C, in plasmas - 374A, shock, interaction with, boundary layer - 362G, sound - 172, thermal, propagation - 412I
wear -292, fracture processes - 274I, materials testing - 280O
welding - 298C
whipping, ship dynamics - 376C
wind: energy systems - 506J, tunnels - 384Q
wing body combinations, aerodynamics - 378D
wings, aerodynamics - 378B
wires: exploding - 170C, mechanics - 258C
wirewound vessels, containment structures - 290F
work hardening, plasticity - 254G
working: fluids, prime movers and, propulsion systems - 418M, (metal) lubricants 382H
wrapping, composite materials processing - 272M
x-ray techniques of stress analysis - 280R