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81 разрушение хрупкое
разрушение хрупкое
Разрушение от механических воздействий без заметных пластических деформаций
[Терминологический словарь по строительству на 12 языках (ВНИИИС Госстроя СССР)]EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > разрушение хрупкое
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82 вязкохрупкое разрушение
Большой англо-русский и русско-английский словарь > вязкохрупкое разрушение
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83 вязкохрупкое разрушение
Англо-русский словарь технических терминов > вязкохрупкое разрушение
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84 вязкохрупкое разрушение
Engineering: ductile-brittle failureУниверсальный русско-английский словарь > вязкохрупкое разрушение
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85 разрушение от хрупкости
Automobile industry: brittle failureУниверсальный русско-английский словарь > разрушение от хрупкости
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86 вязкохрупкое разрушение
Русско-английский политехнический словарь > вязкохрупкое разрушение
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87 хрупкое разрушение
Русско-английский словарь по машиностроению > хрупкое разрушение
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88 analysis
1) анализ2) исследование, изучение4) расчет ( обычно проверочный)5) состав6) теория•-
activation analysis
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algorithmic analysis
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amino acid analysis
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approximate analysis
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Auger-electron analysis
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backward analysis
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base ratio analysis
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behavioral analysis
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bending analysis
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bottom-up analysis
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boundary-element analysis
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brittle coating analysis
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buckling analysis
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bulk analysis
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carbon group analysis
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cepstral analysis
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chemical analysis
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chromatographic analysis
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circuit analysis
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circuit malfunotion analysis
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closed boundary analysis
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clustering analysis
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cluster analysis
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coal-sizing analysis
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combustion analysis
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comfirmatory analysis
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comparative analysis
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compensation analysis
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component analysis of casing head gas
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computer aided analysis
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core analysis
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correlation analysis
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coupled-mode analysis
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covariance analysis
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criticality analysis
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cross correlation analysis
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cross-field analysis
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cryoscopic analysis
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crystal analysis
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cylindrical mirror Auger analysis
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data analysis
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depth-area-duration analysis
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destructive analysis
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diagnostic analysis
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differential thermal analysis
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diffraction analysis
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dilatometric analysis
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discourse analysis
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discriminant analysis
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dispersion analysis
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distortion analysis
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dynamic force analysis
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ecological analysis
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economic analysis
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elastic-plastic stress analysis
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electron diffraction analysis
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electron microprobe analysis
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electron probe analysis
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emission analysis
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end-point analysis
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energy-dispersive analysis
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environmental analysis
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error analysis
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event-sequence analysis
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extinction analysis
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factor analysis
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failure analysis
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failure cause analysis
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fast neutron activation analysis
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field analysis
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fine-mesh analysis
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fingerprint analysis
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finite-element analysis
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float-and-sink analysis
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fluorescence analysis
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formation damage analysis
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four-dimensional analysis
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Fourier analysis
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fractional analysis
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frequency analysis
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frequency-domain analysis
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frequency-response analysis
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frontal analysis
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fuel analysis
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gamma-ray analysis
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gradation analysis of soil
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grading analysis
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gravimetric analysis
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grid-point analysis
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group analysis
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harmonic analysis
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Hempel analysis
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heteroduplex analysis
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hot-extraction gas analysis
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hydrograph analysis
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immunoblot analysis
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infrared analysis
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Interactive analysis
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interactive image analysis
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ion microprobe mass analysis
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ladle analysis
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large-sample analysis
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least-square analysis
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limit state analysis
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linear analysis
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logical analysis
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logic analysis
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magnetometric analysis
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malfunction analysis
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market analysis
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mass spectrographic analysis
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mass spectrometric analysis
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mathematical analysis
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matrix analysis
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measure analysis
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mechanical analysis
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mesh analysis
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microprobe analysis
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microprobe-inclusion analysis
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microscopical analysis
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microstructure analysis
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mobility-shift analysis
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modal analysis
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model-based analysis
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model analysis
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moire stress analysis
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molecular spectrum analysis
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multilevel analysis
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multivariate analysis
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NDT analysis
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nearest neighbor analysis
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nephelometric analysis
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network analysis
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neutron diffraction analysis
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nodal analysis
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noise analysis
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nondestructive test analysis
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noninvasive analysis
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numerical analysis
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observational analysis
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octave analysis
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oil type analysis
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on-line analysis
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operations analysis
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opticospectral analysis
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parametric analysis
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particle-size analysis
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periodogram analysis
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perturbation analysis
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petrographic analysis
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phase shift analysis of the scattering
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phase-plane analysis
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photoelastic-coating analysis
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photoelasticity analysis
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polarographic analysis
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pore-size analysis
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postaccident criticality analysis
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posttest analysis
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predictive analysis
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pretest analysis
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probit analysis
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proximate analysis
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qualitative analysis
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quantitative analysis
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radioactive tracer analysis
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radiographic analysis
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RAM analysis
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rapid analysis
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real-time analysis
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regression analysis
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release analysis
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reliability analysis
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reliability availability maintainability analysis
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revolving field analysis
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ring analysis
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Rutherford scattering analysis
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safety transit analysis
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sample analysis
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sampling analysis
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scale analysis
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screen analysis
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sea-level analysis
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sedimentation analysis
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shear analysis
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sieve analysis
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signature analysis
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simulated network analysis
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single burst analysis
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slag analysis
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small signal analysis
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solar resource analysis
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spatial frequency analysis
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spectral analysis
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spectrophotometric analysis
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speculative analysis
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spot test analysis
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stack-gas analysis
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standing wave analysis
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statistical analysis
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stiffness analysis
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strain-gage analysis
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strength analysis
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stress analysis
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structural analysis
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subsynoptic-scale analysis
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symbolic analysis
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syntactic analysis
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systems analysis
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system analysis
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tapping analysis
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temporal pulse analysis
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tensor analysis
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test sieve analysis
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thermal analysis
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thermoeconomic analysis
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thermographic analysis
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thermogravimetric analysis
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thermomagneto-gravimetric analysis
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three-dimensional analysis
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time series analysis
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timing analysis
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top-down analysis
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trace analysis
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transient analysis
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triangular hydrograph analysis
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ultimate analysis
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upper-level analysis
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variance analysis
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vault-pathways analysis
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vector analysis
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wandering spot analysis
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water analysis
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wave analysis
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weather analysis
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wet analysis
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worst-case analysis
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X-ray absorption analysis
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X-ray analysis
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X-ray crystal analysis
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X-ray dispersive analysis
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X-ray emission analysis
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X-ray image analysis
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X-ray spectrum analysis
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X-ray structure analysis
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Zuber's hydrodynamic analysis -
89 characteristic
1) свойство, признак2) характеристика; мн. ч. технические данные; параметры3) кривая•-
absolute spectral-response characteristic
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acceleration characteristic of fuel
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acceleration characteristic
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acceptable water characteristic
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adsorption-desorption characteristic of catalyst
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aerodynamic characteristics
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aerolastic characteristics
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aging characteristics
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air flow characteristic
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aircraft performance characteristics
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amplitude-versus-frequency response characteristic
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amplitude-frequency response characteristic
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amplitude-versus-frequency characteristic
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amplitude-frequency characteristic
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amplitude-phase characteristic
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anode characteristic
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attenuation characteristic
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availability characteristic
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background response characteristic
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baking characteristic
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B-H characteristic
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bonding characteristics
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brake response characteristic
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braking characteristic
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bread-making characteristic
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breakdown characteristic
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brittle-fracture characteristic
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camera spectral-sensitivity camera-taking characteristics
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camera spectral camera-taking characteristics
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camera spectral-sensitivity characteristics
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camera spectral characteristics
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casting characteristics
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cathode characteristic
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charge characteristic
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chromatic characteristic
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cleaning characteristics
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coking characteristics
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color characteristic
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color photographic characteristics
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comparison characteristics
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constant-current characteristic
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continuous cooling transformation characteristics
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control characteristic
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cooking characteristics
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corrosive characteristics
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crack propagation characteristic
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cracking characteristic of catalyst
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creep characteristic
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current-illumination characteristic
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current-voltage characteristic
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cutoff characteristic
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cutoff current characteristic
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damping characteristic
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dc characteristic
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decay characteristic
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design characteristics
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detonation characteristic
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diode characteristic
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directional characteristic
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discharge characteristic
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discharge voltage-current characteristic
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distillation characteristic
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double-humped characteristic
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drooping characteristic
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dynamic characteristic
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edibility characteristics
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efficiency-concentration characteristic
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E-I characteristic
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elastic characteristics
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electrode characteristic
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elevation characteristics
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emission characteristic
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engine full-load characteristics
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envelope delay characteristic
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etching characteristic
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exposure characteristics
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fail-safe characteristics
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falling characteristic
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fatigue characteristic
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feedback characteristic
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filtration characteristic of catalyst
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flashover characteristic
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flight characteristics
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flow characteristics
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fluidizing characteristics
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forward characteristic
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frequency-response characteristic
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frequency characteristic
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friction gearing pull characteristic
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frictional characteristic of lubricants
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fuel gravity characteristics
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full-load characteristic
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fusibility characteristic
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gain characteristic
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gain-frequency characteristic
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gain-phase characteristic
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gain-transfer characteristic
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gamma characteristic
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gray-tone characteristic
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grid characteristic
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grid-drive characteristic
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group-delay characteristic
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handling characteristic
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hardening characteristics
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heat transfer characteristic
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high-temperature stress-rupture characteristic
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holographic characteristics
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hysteresis characteristic
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impedance-frequency characteristic
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impedance characteristic
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input characteristic
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knock characteristic of gasoline
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lag characteristic
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landing characteristics
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light-transfer characteristic
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linear characteristic
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load characteristic
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longevity propagation characteristic
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luminous characteristic
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luminous-resistance characteristic
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machine characteristics
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magnetic characteristic
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magnetization characteristic
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mb characteristics
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metering characteristic
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milling characteristic
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moisture discharge characteristic
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noise characteristic
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no-load characteristic
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nozzle spray characteristic
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numerical characteristic
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open-circuit characteristic
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operating characteristics
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optimal characteristic
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output characteristic
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overload characteristics
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oxidation characteristic
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packing characteristic of polymer
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performance characteristics
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persistance characteristic
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phase-response characteristic
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phase characteristic
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photographic characteristics
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photovoltaic characteristic
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plate characteristic
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population characteristic
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pore structure characteristic of catalyst
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positive void characteristic
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power characteristic of fuel
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prearcing time/current characteristic
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pressure drop characteristics
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processing characteristics
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propulsion performance characteristics
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pulse-response characteristic
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pulse characteristic
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qualitative characteristic
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quantitative characteristic
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quantization characteristic
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recovery characteristic
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rectifying characteristic
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reliability characteristic
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resin leakage characteristics
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resistance variation characteristic
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resistance-temperature characteristic
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resolving-power characteristics
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resonance characteristic
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response characteristic
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reverse characteristic
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running characteristics
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sample characteristic
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saturation characteristic
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sensitometric characteristics
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series characteristic
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shatter characteristic
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short-circuit characteristic
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shunt characteristic
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sloping characteristic
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solidifying characteristics of oil
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spectral characteristic
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spectral-sensitivity characteristic
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speed-torque characteristic
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spin-recovery characteristics
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square-wave response characteristic
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stability characteristics
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stalling characteristics
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stall characteristics
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start/stop characteristic
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starting characteristic
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static characteristic
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steady-state characteristic
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strain-hardening characteristic
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strength characteristics
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surge characteristic
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swelling characteristic
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switching characteristic
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takeoff and landing characteristics
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temperature characteristic
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test-bench characteristics
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thermal and physical characteristics
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throttling characteristic
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time characteristic
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time-to-failure characteristic
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timing characteristic
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toughness characteristic
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towing characteristic
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track-defining characteristics
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transfer characteristic
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transient characteristic
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transmission characteristic
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tribological characteristics
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tribometrical characteristics
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tribotechnical characteristics
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trim characteristics
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trouble-free characteristic
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turn characteristics
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unitgraph characteristics
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unwinding characteristic
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user-definable characteristics
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viscosity-temperature characteristic
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voltage-current characteristic
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voltage-time characteristic
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wavelength characteristic
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wear characteristics
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well producing characteristics
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work-hardening characteristic
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working characteristics -
90 crack
1) трещина; разрыв || трескаться, растрескиваться; разрываться; раскалываться2) мн. ч. метал. проф. рванины (раскрытые разрывы вследствие пониженной пластичности)•to bridge crack — перекрывать трещину;to point crack — расшивать трещину (напр. в штукатурке)-
accelerating crack
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alligator crack
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arrested crack
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basal crack
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bifurcated crack
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blunted crack
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blunt crack
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bond-failure crack
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branched crack
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branching crack
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brittle fracture crack
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butt crack
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central crack
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check crack
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chill crack
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chip cracks
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circular crack
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circumferential crack
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circumferential discrete crack
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clevage crack
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combined mode crack
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continuous crack
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contraction crack
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corrosion crack
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corrosion-fatigue crack
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craze crack
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creep crack
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critical crack
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crotchcorner crack
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crow-foot cracks
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curved crack
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cylindrical crack
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decelerating crack
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D-line cracks
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double edge crack
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draw crack
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drying crack
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edge crack
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elliptically shaped crack
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elliptical shaped crack
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embedded crack
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equilibrium crack
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expansion crack
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extending crack
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external crack
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fatigue crack
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fine crack
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finite crack
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fire crack
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flake crack
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flat crack
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flute crack
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fold crack
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forked crack
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frame cracks
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frost crack
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grinding crack
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growing crack
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hair-line crack
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hair crack
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halfway crack
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hanger crack
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hardening crack
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heat-treatment crack
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high-velocity crack
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inclined crack
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interface crack
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intergranular crack
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interlaminar crack
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internal crack
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line crack
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longitudinal crack
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longitudinal tie crack
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map cracks
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minute crack
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most vulnerable crack
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nonbranched crack
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nonextending crack
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nonthrough thickness crack
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nonthrough crack
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normal crack
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notch crack
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oblique crack
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panel crack
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partial crack
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part-through thickness crack
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part-through crack
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patched crack
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penetrated crack
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pickling cracks
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plate crack
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pressing crack
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primary crack
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progressive-type crack
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progressive crack
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propagating crack
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quenching crack
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quench crack
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rail seat crack
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relaxed crack
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ring crack
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rolled crack
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root crack
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secondary crack
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self-propagating crack
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semielliptical crack
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semiinfinite crack
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service-induced crack
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shallow crack
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sharp crack
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sharp-tipped crack
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shear crack
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shrinkage crack
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single edge crack
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skin crack
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slit crack
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solidification crack
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spreading crack
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straight crack
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strain crack
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stress corrosion crack
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stress crack
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stress fatigue crack
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submicroscopic crack
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subsurface crack
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surface crack
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surface-initiated crack
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tensile crack
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thermal crack
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thermal fatigue crack
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throat crack
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through-the-wall crack
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through-wall crack
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through-the-thickness crack
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tide crack
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tie center crack
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toe crack
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wedge-shaped crack
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welding crack
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well-defined crack
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withdrawall roll crack -
91 дефект
1) General subject: blowing (в фарфоре), defect, defect (недостаток или аномали), demerit, fault, flaw, imperfection, mar, mar (речи), objection, shortcoming, take off, vice2) Naval: chop3) Medicine: deficiency, deformity, handicap (физический или психический), lack, prolapse (дефект тканей, рана), disorder4) Engineering: abnormality, blemish (поверхности), damage (в результате повреждения), defect center, exposure (в программе, обнаруженный при структурном контроле)5) Mathematics: excess (матрицы), kilter (дуги графа)6) Railway term: error7) Automobile industry: malformation8) Forestry: brack9) Polygraphy: incomplete font10) Jargon: skin11) Information technology: bug, exposure (напр. программы, обнаруженный при структурном контроле)12) Oil: trouble13) Sakhalin energy glossary: brittle weld14) Oilfield: failure (неисправность)15) Microelectronics: flow, malfunction16) Polymers: drawback17) Quality control: (технический) bug, disadvantage, weakness18) Makarov: damage (результат повреждения), defect (трещина, дефект изделия), flaw (трещина, дефект изделия), scab20) Electrical engineering: breakage21) Phraseological unit: do a number on -
92 хрупкое разрушение при ползучести
Polymers: brittle creep failureУниверсальный русско-английский словарь > хрупкое разрушение при ползучести
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93 означать
Означать - to mean, to imply, to infer, to connote, to involve, to make sense (говорить о); to stand for, to refer to (о сокращениях); to denote (означать собой); to represent (о значках, буквах); to translate into (обуславливать)Do the measured results infer a risk of brittle fracture in large structures?Peaking service connotes rapid response, high number of cycles and low operating hours per year. Peaking power also means pressure for minimum first cost.A particular choice involves favoring one design criterion over another.This interaction of failure modes implies the exhaustion of creep life once the critical creep-initiated crack has occurred.Multi Just stands for Multiple Justification.Throughout this guide, "Qbasic" refers to MS-DOS Qbasic.EMIS stands for Electronic Materials Information Service.Examination denotes the performance of all visual observations and nondestructive tests.The asterisk represents the factory setting.Low values of M represent a lower likelihood of flutter.Improved combustion chamber insulation translates into less heat removal through the engine and more heat energy converted into useful work.Русско-английский научно-технический словарь переводчика > означать
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94 с целью лучшего понимания
С целью лучшего понимания-- It is of interest to consider a simplified stress corrosion cracking mechanism for the purpose of understanding the essential aspects of this brittle-type failure process.Русско-английский научно-технический словарь переводчика > с целью лучшего понимания
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95 point
1) точка, точка координат2) место, пункт3) положение, позиция4) степень6) резец7) остриё, острый конец8) вершина горы9) расшивать швы каменной, кирпичной кладки10) точить; заострять (напр. конец сваи)•- point of concentration - point of contraflexure - point of curve - point of cusp - point of discontinuity - point of distance - point of evaporation - point of failure - point of fault - point of fluidity - point of force - point of force application - point of high stress concentration - point of increase - point of inflection - point of load application - point of pile - point of reference - point of sight - point of support - point of switch - point of zero moment - point of zero work - actual frog point - aerodrome reference point - angular point - attachment point - balance point - bending point - bending yield point - blunt nail point - boom point - breaking point - brittle point - burning point - ceiling point - change point - changeover point - characteristic point - chisel point - condensation point - congealing point - control point - crawbar point - creep point - critical point - crossover point - cutting point - datum point - dead point - decimal point - destruction point - dew point - discharge point - distribution point - draw-off point - drip point - electric point - elevation point - evaporating point - fatigue point - fibre saturation point - fire point - fixed point - fixing point - flow point - focal point - gimlet point - groin point - hinge point - hinged point - intersection point - isolated point - isotropic point - junction point - load point - modular point - nail point - nodal point - node point - open point - panel point - picture point - plumb point - quarter point - quarter-span point - railroad point - reference point - rigid point of support - sampling point - saturation point - saw point - slinging point - stagnation point - starting point - tangent point - tie point - transit point - triangulation point - upper yield point - vanishing point - yield point - zero pointto take a point — геод. взять отметку
* * *1. точка; точка координат2. остриё || заострять3. положение; позиция4. точка отбора (газа, электроэнергии); розетка5. место; пункт6. деление шкалы7. стрелка, стрелочный перевод8. оценочный балл; интенсивность (напр. землетрясения)9. момент времени10. расшивать швы каменной [кирпичной] кладки- point of applicationpoint for which stress is to be computed — рассматриваемая точка ( сечения элемента конструкции), для которой вычисляют напряжение
- point of certainty
- point of compound curvature
- point of concentration
- point of contraflexure
- point of curvature
- point of cusp
- point of grade intersection
- point of high stress concentration
- point of inflection
- point of intersection
- point of lateral restraint
- point of support
- point of switch
- point of tangency
- point of the maximum bending moment
- point of vertical curve
- point of vertical intersection
- point of vertical tangent
- point of zero moment
- airport reference point
- angle point
- arbitrary point
- azeotropic point
- balance point
- bearing point
- bending point
- bent-up point
- blade point
- boiling point
- boom point
- Borros point
- bottom chord panel point
- break point
- catch point
- change point
- change-over point
- common point
- condensation point
- conflict point
- control point
- crowbar point
- curve-to-tangent point
- cut-in point
- cut-out point
- dew point
- draw-off point
- drive point
- driving point
- drop point
- electric point
- end switch point
- eutectic point
- firing point
- fixed point
- fixing point
- flash point
- focal point
- forced point
- freezing point
- frog point
- frost point
- fusing point
- gas point
- glazier's point
- guide point
- high stress concentration point
- hinged point
- ignition point
- intermediate point
- intersection point
- jib point
- junction point
- light point
- low point of a pipeline
- low point
- lower-chord panel point
- lower yield point
- mass point
- melting point
- movable center point
- neutral point
- nodal point
- Oslo point
- panel point
- pavement settlement point
- picture point
- pile point
- plumb point
- plus point
- principal point
- reference point
- road settlement point
- roof truss panel point
- Sampson point
- sand point
- saturation point
- saw point
- set point
- sharply defined yield point
- side point
- signal clearance point
- softening point
- starting point
- surface-hardened point
- surveying reference point
- switch point
- switch-on point
- tangent point
- tangent-to-curve point
- top-chord panel point
- transition point
- turning point
- upper chord panel point
- upper yield point
- vanishing point
- water-supply point
- wing point
- work point
- yield point -
96 zone
1) зона; пояс; участок; район2) разделять на зоны; районировать; опоясывать•- zone of annual fluctuations of ground temperature - zone of engineering control - zone of height limitation - zone of influence - zone of limit state of soil elastic equilibrium - zone of outer transportation facilities - zone of regulated housing development - zone of saturation - zone of subterranean waters affluent - zone of transport - zone of urban renewal - absorbing zone - active zone of foundation bed - adhesion zone - administrative zone - aeration zone - alteration zone - annual zone - approach zone - attraction zone - bond zone - brittle zone - burner zone - burning zone of kiln - clinkering zone - coarse zone - comfort zone - compression zone - cooling zone - danger zone - dicarbonation zone - drying zone - dwellings zone - fault zone - fine zone - fixed fire zone - floodable zone - flood zone - flooded zone - fluxed zone - forbidden zone - fractur zone - fractured zone - frost zone - functional zone - fusion zone - health-resort zone - heat-affected zone - high density zone - industrial zone - loading zone - marginal zone - moving fire zone - neutral zone - operating zone - preferential housing development zone - preheating zone - preliminary heating zone - protected zone - recreation zone - reinforcement anchorage zone - reinforcement bonding zone - residential zone - safety zone - sanitary zone - sanitary protection zone - sheeted zone - storage zone - storehouse and public utilities zone - suburban zone - tensile stress zone - town industrial zone - transition zone - urban reservation zone - water protection zone - wearing zone - welding zone - wetting zone* * *зона; полоса; пояс; район; функциональная зона ( планировочная)zone divided into plots — территория, разбитая на участки застройки
zone non aedificandi — территория, на которой отсутствуют какие-либо строения
zone to be cleaned up — (городская) территория, требующая санитарной очистки
zone to be provided with facilities — (городская) территория, требующая инженерного обустройства
- zone of height limitationzone to be redivided — часть города [зона], требующая перепланировки
- zone of imperfection
- zone of influence
- zone of linearity
- zone of mountain economy
- access zone
- accumulation zone
- active zone
- administrative zone
- agricultural zone
- anchorage zone
- anchorage zone of fanned-out wires
- audibility zone
- bending compression zone
- bond zone
- border zone
- boundary zone
- breathing zone
- buffer zone
- clearly demarcated zone
- climatic zone
- collective dwellings zone
- comfort zone
- commercial zone
- compensation zone
- compression zone
- compressive zone
- compressive zone of the concrete
- constructable zone
- control zone
- dead zone
- dead air zone
- deprived zone
- de-stressed zone
- disaster zone
- dwellings zone
- earthquake zone
- easily flooded zone
- exit zone
- exterior zone
- failure zone
- flooding zone
- flood zone
- forbidden zone
- fracture zone
- frontier zone
- green zone
- height zone above curb
- individual dwellings zone
- industrial zone
- interior zone
- leisure zone
- limited access zone
- market-gardening zone
- mixed zone
- mixed development zone
- mixed dwellings zone
- neutral zone
- occupied zone
- operating zone
- operational zone
- overpopulated zone
- perimeter zone
- pressure zone
- protected zone
- provision zone
- reafforestation zone
- recreational zone
- regulated traffic zone
- residential zone
- runway clear zone
- rural zone
- safety zone
- sanitary protection zone
- sewer zone
- stagnant air zone
- suburban zone
- supply zone
- tensile zone
- tensile zone of the concrete
- tensioned zone
- tension zone
- threshold zone
- throttling zone
- tidal zone
- touristic zone
- traffic zone
- transition zone
- transmission zone
- twilight zone
- university zone
- unsanitary zone
- urban zone
- visibility zone
- water protection zone
- wave zone
- working zone -
97 hard
1. n твёрдая мощёная или бетонированная дорожкаhard page break — «твёрдая» граница страницы
hard copy — удобочитаемый, печатный или машинописный текст
2. n твёрдый грунт, по которому можно пройти через топкое болотоhard court — твёрдое поле, корт с твёрдым покрытием
3. n звонкая монета4. n сл. каторгаimprisonment at hard labour — лишение свободы с каторжными работами; каторжные работы, каторга
5. n разг. прессованный табак6. a жёсткий, неприятный на ощупьa hard unwilling man — жёсткий, упрямый человек
7. a трудный, тяжёлый; требующий напряженияhard cases make bad law — трудные дела — плохая основа для законодательства, запутанные дела не могут служить прецедентом
8. a такой, с которым трудно; с трудом поддающийсяthings hard to imagine — вещи, которые трудно себе представить
9. a крепкий, закалённый, сильный10. a строгий, суровый; безжалостный, жестокий11. a тяжёлый, трудныйis hard — трудный; твердый
are hard — трудный; твердый
12. a тяжёлый, суровый, полный трудностей и лишений13. a суровый, холодный14. a резкий; грубый; неприятный15. a усердный, упорный; прилежный16. a не знающий удержу, усиленно предающийся17. a стойкий, устойчивыйhard fault — устойчивая неисправность; отказ
18. a спец. стойкий, не поддающийся биологическому распаду19. a звонкий20. a реальный; практичный, лишённый романтики; приземлённыйhard common sense — грубый практицизм; жёсткий рационализм
21. a жёсткий, частыйshe abbreviated so much that it was hard to understand her letters — она так часто сокращала слова, что её письма было трудно понимать
22. a крепко завязанный23. a амер. крепкий; алкогольный24. a разг. кислый, терпкий25. a спец. контрастныйhard light — фото, кино «жёсткий» свет
26. a густой, тягучий27. a физ. проникающий, жёсткий28. a фон. твёрдый29. a создающий привыканиеno hard feelings? — вы не обиделись?; вы не будете на меня обижаться?
hard knocks — удары судьбы; напасти, несчастья
he took some hard knocks — ему не везло; несчастья сваливались на него одно за другим
hard lines — незадача, невезение; полоса неудач
hard and fast — непоколебимый; твёрдый; жёсткий ; строго определённый; незыблемый, раз навсегда установленный
hard of hearing — тугоухий; тугой на ухо, глуховатый
30. adv сильно, интенсивно; энергичноextremely hard — настойчиво; энергичный
31. adv настойчиво, упорно; усердноhard sell — навязывание товара; настойчивое рекламирование; броская реклама
32. adv твёрдо, крепко; накрепкоto hold hard — крепко держать или держаться, не отпускать
33. adv вкрутую34. adv тяжело, с трудомto take hard — принимать близко к сердцу; тяжело переживать
35. adv неумеренно, чрезмерноto drink hard — крепко выпивать; пить запоем
36. adv близко, на небольшом расстоянии; околоhard at hand — близко, рядом
hard by — близко; рядом
37. adv мор. круто, до отказаСинонимический ряд:1. actual (adj.) absolute; actual; factual; genuine; positive; sure-enough2. alcoholic (adj.) alcoholic; ardent; inebriating; intoxicating; spirituous; stimulating; strong3. arduous (adj.) arduous; difficile; exhausting; fatiguing; labored; operose; serious; slavish; sticky; strenuous; terrible; toilful; toilsome; uphill; wearisome4. complicated (adj.) complex; complicated; effortful; enigmatic; formidable; intricate; perplexing; puzzling5. cruel (adj.) cruel; grinding; oppressive; rough; stony; unmerciful; unrelenting; unsparing6. grim (adj.) austere; bitter; bleak; brutal; dour; grim; stringent7. hardy (adj.) casehardened; hardened; hardy; rugged; tough8. heavy (adj.) heavy; hefty9. insensible (adj.) anesthetic; bloodless; dull; impassible; insensate; insensible; insensitive; rocky10. intense (adj.) intense; powerful; violent11. intensive (adj.) blood-and-guts; deep; intensive; profound12. irrefutable (adj.) incontrovertible; irrefutable; undeniable13. realistic (adj.) down-to-earth; earthy; hard-boiled; hardheaded; hard-headed; matter-of-fact; objective; practic; practical; pragmatic; pragmatical; realistic; sober; tough-minded; unfantastic; unidealistic; unromantic; utilitarian14. severe (adj.) adamant; exacting; hard hearted; indifferent; intemperate; relentless; rigorous; severe15. shrewd (adj.) callous; shrewd; unsentimental; unsympathetic16. solid (adj.) adamantine; compact; firm; flinty; impenetrable; inflexible; resistant; resisting; rigid; solid17. stormy (adj.) inclement; stormy; tempestuous; vigorous; vigourous18. taxing (adj.) backbreaking; burdensome; demanding; difficult; knotty; laborious; onerous; taxing; trying; weighty19. unfriendly (adj.) harsh; unfriendly; unkind; unpleasant20. arduously (other) arduously; burdensomely; difficultly; laboriously; onerously; toilsomely21. assiduously (other) assiduously; dingdong; exhaustively; intensely; intensively; painstakingly; thoroughly; unremittingly22. badly (other) badly; gallingly; harshly; painfully; rigorously; roughly; severely; with difficulty23. bitterly (other) bitterly; keenly; rancorously; resentfully; sorely24. close (other) at close hand; close; near; nearby; nigh25. closely (other) closely; searchingly; sharply26. earnestly (other) earnestly; incessantly; intently27. energetically (other) energetically; forcefully; forcibly; hammer and tongs; might and main; mightily; powerfully; strongly; vigorously; with might and main28. fast (other) fast; firm; firmly; fixedly; hardly; solid; solidly; steadfastly; tight; tightly29. fiercely (other) fiercely; frantically; frenziedly; furiously; madly; stormily; tumultuously; turbulently; vigourously; violently; wildlyАнтонимический ряд:brittle; compassionate; delicate; ductile; easy; effeminate; elastic; fair; feeble; fluid; frail; gentle; impressible; intelligible; lenient; mild; simple; soft -
98 испытание на излом
Русско-английский большой базовый словарь > испытание на излом
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99 Chevenard, Pierre Antoine Jean Sylvestre
SUBJECT AREA: Metallurgy[br]b. 31 December 1888 Thizy, Rhône, Franced. 15 August 1960 Fontenoy-aux-Roses, France[br]French metallurgist, inventor of the alloys Elinvar and Platinite and of the method of strengthening nickel-chromium alloys by a precipitate ofNi3Al which provided the basis of all later super-alloy development.[br]Soon after graduating from the Ecole des Mines at St-Etienne in 1910, Chevenard joined the Société de Commentry Fourchambault et Decazeville at their steelworks at Imphy, where he remained for the whole of his career. Imphy had for some years specialized in the production of nickel steels. From this venture emerged the first austenitic nickel-chromium steel, containing 6 per cent chromium and 22–4 per cent nickel and produced commercially in 1895. Most of the alloys required by Guillaume in his search for the low-expansion alloy Invar were made at Imphy. At the Imphy Research Laboratory, established in 1911, Chevenard conducted research into the development of specialized nickel-based alloys. His first success followed from an observation that some of the ferro-nickels were free from the low-temperature brittleness exhibited by conventional steels. To satisfy the technical requirements of Georges Claude, the French cryogenic pioneer, Chevenard was then able in 1912 to develop an alloy containing 55–60 per cent nickel, 1–3 per cent manganese and 0.2–0.4 per cent carbon. This was ductile down to −190°C, at which temperature carbon steel was very brittle.By 1916 Elinvar, a nickel-iron-chromium alloy with an elastic modulus that did not vary appreciably with changes in ambient temperature, had been identified. This found extensive use in horology and instrument manufacture, and even for the production of high-quality tuning forks. Another very popular alloy was Platinite, which had the same coefficient of thermal expansion as platinum and soda glass. It was used in considerable quantities by incandescent-lamp manufacturers for lead-in wires. Other materials developed by Chevenard at this stage to satisfy the requirements of the electrical industry included resistance alloys, base-metal thermocouple combinations, magnetically soft high-permeability alloys, and nickel-aluminium permanent magnet steels of very high coercivity which greatly improved the power and reliability of car magnetos. Thermostatic bimetals of all varieties soon became an important branch of manufacture at Imphy.During the remainder of his career at Imphy, Chevenard brilliantly elaborated the work on nickel-chromium-tungsten alloys to make stronger pressure vessels for the Haber and other chemical processes. Another famous alloy that he developed, ATV, contained 35 per cent nickel and 11 per cent chromium and was free from the problem of stress-induced cracking in steam that had hitherto inhibited the development of high-power steam turbines. Between 1912 and 1917, Chevenard recognized the harmful effects of traces of carbon on this type of alloy, and in the immediate postwar years he found efficient methods of scavenging the residual carbon by controlled additions of reactive metals. This led to the development of a range of stabilized austenitic stainless steels which were free from the problems of intercrystalline corrosion and weld decay that then caused so much difficulty to the manufacturers of chemical plant.Chevenard soon concluded that only the nickel-chromium system could provide a satisfactory basis for the subsequent development of high-temperature alloys. The first published reference to the strengthening of such materials by additions of aluminium and/or titanium occurs in his UK patent of 1929. This strengthening approach was adopted in the later wartime development in Britain of the Nimonic series of alloys, all of which depended for their high-temperature strength upon the precipitated compound Ni3Al.In 1936 he was studying the effect of what is now known as "thermal fatigue", which contributes to the eventual failure of both gas and steam turbines. He then published details of equipment for assessing the susceptibility of nickel-chromium alloys to this type of breakdown by a process of repeated quenching. Around this time he began to make systematic use of the thermo-gravimetrie balance for high-temperature oxidation studies.[br]Principal Honours and DistinctionsPresident, Société de Physique. Commandeur de la Légion d'honneur.Bibliography1929, Analyse dilatométrique des matériaux, with a preface be C.E.Guillaume, Paris: Dunod (still regarded as the definitive work on this subject).The Dictionary of Scientific Biography lists around thirty of his more important publications between 1914 and 1943.Further Reading"Chevenard, a great French metallurgist", 1960, Acier Fins (Spec.) 36:92–100.L.Valluz, 1961, "Notice sur les travaux de Pierre Chevenard, 1888–1960", Paris: Institut de France, Académie des Sciences.ASDBiographical history of technology > Chevenard, Pierre Antoine Jean Sylvestre
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100 Thomas, Sidney Gilchrist
SUBJECT AREA: Metallurgy[br]b. 16 April 1850 London, Englandd. 1 February 1885 Paris, France[br]English inventor of basic steelmaking.[br]Thomas was educated at Dulwich College and from the age of 17, for the next twelve years, he made his living as a police-court clerk, although he studied chemistry in his spare time as an evening student at Birkbeck College, London. While there, he heard of the difficulties encountered by the Bessemer steelmaking process, which at that time was limited to using phosphorus-free iron. Any of this element present in the iron was oxidized to phosphoric acid, which would not react with the acidic lining in the converter, with the result that it would remain in the iron and render it too brittle to use. Unfortunately, phosphoric iron ores are more common than those free of this harmful element. Thomas was attracted by the view that a fortune awaited anyone who could solve this problem, and was not discouraged by the failure of several august figures in the industry, including Siemens and Lowthian Bell.Thomas's knowledge of chemistry taught him that whereas an acidic lining allowed the phosphorus to remain in the iron, a basic lining would react with it to form part of the slag, which could then be tapped off. His experiments to find a suitable material were conducted in difficult conditions, in his spare time with meagre apparatus. Finally he found that a converter lined with dolomite, a form of limestone, would succeed, and he appealed to his cousin Percy Carlyle Gilchrist, Chemist at the Blaenavon Ironworks in Monmouthshire, for help in carrying out pilot-scale trials. In 1879 he gave up his police-court job to devote himself to the work, and in the same year they patented the Thomas- Gilchrist process. The first licence to use it was granted to Bolckow, Vaughan \& Co. of Middlesborough, and there the first steel was made in a basic Bessemer converter on 4 April 1879. The process was rapidly taken up and spread widely in Europe and beyond and was applied to other furnaces. Thomas made a fortune, but his health did not long allow him to enjoy it, for he died at the early age of 34.[br]BibliographyL.G.Thompson, 1940, Sidney Gilchrist Thomas, an Invention and Its Consequences, London: Faber.T.G.Davies, 1978, Blaenavon and Sidney Gilchrist Thomas, Sheffield: Historical Metallurgy Society.LRDBiographical history of technology > Thomas, Sidney Gilchrist
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