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1 cloudburst process
дождевание( поверхности) металлическими шарикамиБольшой англо-русский и русско-английский словарь > cloudburst process
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2 cloudburst process
дождевание ( поверхности) металлическими шарикамиАнгло-русский словарь технических терминов > cloudburst process
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3 cloudburst process
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4 cloudburst process
1) Техника: дождевание металлическими шариками (поверхности)2) Автомобильный термин: дробеструйная нагартовка, нагартовка поверхности (путём обдувки дробью), наклёп поверхности (путём обдувки дробью)4) Электрохимия: дробеструйный наклёп -
5 cloudburst process
• дробеструен наклепEnglish-Bulgarian polytechnical dictionary > cloudburst process
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6 cloudburst process
наклёп поверхности (путём обдувки дробью); нагартовка поверхности (путём обдувки дробью); дробеструйная нагартовка поверхностиАнгло-русский словарь по машиностроению > cloudburst process
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7 process
1) процесс2) (технологический) процесс; (технологическая) обработка3) технологический приём; способ4) технология5) режим; ход (процесса)6) обрабатывать, подвергать обработке7) подвергать анализу, анализировать•to design process — разрабатывать технологию-
acetone-acetylene process
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acetylene process
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Acheson process
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acid Bessemer process
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acid process
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acid reclaiming process
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acyclic process
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Adapti investment casting process
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additive process
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adiabatic process
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Aero case process
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aerobic process
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age-dependent process
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air blast process
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air-sand process
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Alcan process
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Al-Dip process
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alfin process
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alkali reclaiming process
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alkaline process
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Allis-Chalmers agglomeration reduction process
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ALT process
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aluminothermic process
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anaerobic process
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anamorphotic process
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annealing-in-line process
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anode process
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anodic electrode process
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AOD process
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aqua-cast process
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ARBED-ladle-treatment process
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arc-air process
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arc-remelting process
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argon-oxygen-decarburization process
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ASEA-SKF process
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autoregressive process
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averaging process
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Azincourt process
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azo coupling process
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background process
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bag process
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BAP process
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Barrow process
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Basett process
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basic Bessemer process
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basic oxygen process
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basic process
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basic-arc process
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batch process
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biofiltration process
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bipolar process
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bipolar-FET process
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bipolar-MOS process
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BISRA degassing process
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black-heart process
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Blackodising process
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blast-furnace process
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Blaw-Knox process
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bleaching process
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Bochumer-Verein process
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boiling process
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bonding process
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bottom-argon-process process
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broadband random process
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bromoil transfer process
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bromoil process
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bubble-column process
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bubble-hearth process
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buffer-slag process
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Calmes process
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Canadizing process
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carbon mold process
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carbon process
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carbon-arc process
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carbon-in-leach process
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carbon-in-pulp process
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carbothermic process
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carbro process
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carrier-gas degassing process
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cascade process
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cast shell process
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catalytic DENO process
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cathodic process
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CC-CR process
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CC-DR process
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CC-HCR process
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cementation process
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cementation-in-pulp process
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cementing process
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centrifugal spinning process
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cermet process
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CESM process
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CEVAM process
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charge transfer process
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chemical vapor deposition process
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chemical-bonding process
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Chenot process
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china process
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cine exposure process
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cine process
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CLC process
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clean burn process
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cloudburst process
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CLU process
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CMOS process
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CNC process
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CO2 silicate process
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coal reduction process
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coal to gas process
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coal-gas-sumitomo process
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coal-oxygen-injection process
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COIN process
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cold box process
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cold doping process
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cold process
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cold scrap process
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cold type process
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collodion process
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color process
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concurrent processes
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consteel process
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consumable electrode vacuum arc melting process
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contact process
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continuous annealing process
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continuous casting-cleaning rolling process
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continuous casting-direct rolling process
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continuous casting-hot charging and rolling process
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continuous electroslag melting process
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continuous metal cast process
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continuous-on-line control process
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continuous-time process
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controlled pressure pouring process
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controlled process
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converter process
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cooking process
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coppering process
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copying process
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coupled cathodic-anodic process
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cracking process
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Creusot Loire Uddenholm process
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critical process
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cumulative process
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cuprammonium process
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curing process
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CVD process
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cyclic process
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Cyclosteel process
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Czochralski process
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daguerre photographic process
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dense-media process
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Desco process
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deterministic process
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developing process
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DH degassing process
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diabatic process
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diazo process
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diffused planar process
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diffusion process
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diffusion transfer process
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dip-forming process
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direct iron process
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direct process
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direct reduction process
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direct-sintering process
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discrete-time process
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discrete process
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DLM process
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Domnarvet process
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Dored process
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double-crucible process
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double-epi process
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doubling process
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D-process
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DR process
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drop-molding process
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dry adiabatic process
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dry process
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dry-blanch-dry process
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duplex process
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easy drawing process
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EBM process
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EBR process
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EF-AOD process
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electric furnace-argon oxygen decarburization process
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electroarc process
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electrocatalytic process
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electrocolor process
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electrodialysis reversal process
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electroflux-remelting process
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electromembrane process
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electron-beam-melting process
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electron-beam-refining process
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electrophotoadhesive process
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electrophotographic process
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electroslag refining process
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electroslag remelting process
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electroslag remelt process
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electrostatographic process
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electrostream process
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Elo-Vac process
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elquench process
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endothermic process
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energy efficient process
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entropy process
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enzymatic process
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EPIC process
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epidemic process
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epitaxial growth process
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epitaxy growth process
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ergodic process
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ESR process
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Estel process
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etching process
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exoergic process
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exothermic process
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extrusion-molded neck process
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ferroprussiate process
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Ferrox process
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filming process
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filtration-chlorination process
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Finkl-Mohr process
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FIOR process
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first process
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fixed-bed MTG process
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flash steel direct reduction process
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float process
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float-and-sink process
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float-zone process
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flow process
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fluid iron ore reduction process
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fluid-bed MTG process
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fluidized roasting process
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fluid-sand process
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FMC coke process
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foaming process
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foehn process
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food-machinery and chemical coke process
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foreground process
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Foren process
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FOS process
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freeze concentration process
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fuel-oxygen-scrap process
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full-mold process
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fusion-casting process
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Futacuchi process
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Gaussian process
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Gero mold degassing process
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Gero vacuum casting process
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GGS process
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girbitol process
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gradual reduction process
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growing process
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growth process
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gypsum-sulfuric acid process
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Hall electrolytic process
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Harris process
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hazardous process
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H-coal process
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heat-transfer process
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heavy-media process
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hibernating process
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HI-GAS process
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high-frequency induction process
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HIP process
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H-iron process
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Hoope process
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hot isostatic pressing process
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hot process
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hot-metal process
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hot-metal-and-scrap process
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hot-type process
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hydrogasification process
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hydrotype process
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HyL process
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IC-DR process
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image process
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imbibition process
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immiscible displacement process
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implantation process
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impurity doping process
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in-bulk process
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inchrome process
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in-draw process
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inductoslag-melting process
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ingot casting direct rolling process
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injection molding process
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in-line process
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Inred process
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interpolation process
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investment process
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ion-implantation process
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irreversible process
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isentropic process
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ISM process
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isobaric process
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isochoric process
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isoenthalpic process
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isoentropic process
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isometric process
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isoplanar process
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isothermal process
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iterative process
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jet-expanding process
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Kaldo process
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katadyn process
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Kawasaki-bottom-oxygen-process process
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Kawasaki-Gas-Lime-Injection process
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K-BOP process
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KEK process
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KG-LI process
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kiln-reduction process
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KIVCET cyclone smelting process
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KIVCET process
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knit-deknit process
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koetherizing process
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KR process
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kraft process
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lance bubbling equilibrium process
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LBE process
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LD-AB process
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LD-AC process
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LD-AOD process
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LD-argon bottom process
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LD-argon oxygen decarburization process
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LD-CB process
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LD-circle lance process
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LD-CL process
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LD-combination blow process
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LD-HC top and botton blowing process
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LDK process
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LD-Kawasaki-Gas process
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LD-KG process
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LD-OB process
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LD-OTB process
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LD-oxygen bottom process
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LD-oxygen-top-bottom process
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lift-off process
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liquefaction process
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liquid gas plug process
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liquid-phase process
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loop transfer process
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lost core process
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low-waste technological process
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LSI process
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LVR process
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LVS process
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Mannesmann powder process
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mapping process
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Markovian process
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Markov process
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masking process
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matte fuming process
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melting process
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mercast process
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Midland-Ross process
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Midrex process
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migration process
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miscible displacement process
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miscible plug process
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mixed autoregressive-moving average process
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moist adiabatic process
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Molynutz process
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monochrome process
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monolithic process
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MOS process
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MOSFET process
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motion-picture process
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moving average process
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narrowband random process
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Neely process
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negative-positive process
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Nitemper process
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no pickle process
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nonflow process
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non-Gaussian process
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Nord-Fuvo process
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Nu-iron process
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OBM process
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OG process
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OLP converter process
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one-way process
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open-hearth process
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orbitread process
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ore process
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Orthoflow cracking process
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Orthoforming process
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orthogonal increment process
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oxidation process
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oxide-isolated process
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oxygen-blow process
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oxygen-gas process
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oxygen-lancing process
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oxygen-steelmaking process
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packaging process
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pad-batch dyeing process
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pad-dry dyeing process
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pad-jig dyeing process
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pad-roll dyeing process
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pad-steam dyeing process
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pad-steam vat-print process
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PAMCO-hot-alloy process
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parent process
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PCR process
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Perrin process
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PHA process
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phonon process
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photoelectric process
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photomechanical process
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photovoltaic process
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pig iron-scrap process
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pig-and-ore process
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pigment padding dying process
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pigment padding process
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pigment process
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pinatype process
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planar process
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plasma etching process
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plasma etch process
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plasma process
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plasma-arc process
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Plasmamelt process
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Plasmared process
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plaster mold process
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plastic wirecut process
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polytropic process
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powder silicon ribbon process
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power-press process
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prepolymer process
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prepress processes
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pressure-driven membrane process
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primuline process
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propane-acid process
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pulsating mixing process
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Purex process
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pushbench process
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Q-BOP process
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QDT process
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quality basic oxygen process process
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quasi-independent processes
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quick and direct tapping process
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ram process
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random process
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rapid solidification plasma deposition process
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rayon continuous process
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receiving process
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reclamator reclaiming process
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recurrent process
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redox process
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reducing process
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reduction-smelting process
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relaxation process
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repetitive process
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reproduction process
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reversal process
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reversible process
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RH process
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RH-OB process
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ribbon process
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R-N direct-reduction process
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roasting-sintering process
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roast-leaching process
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robot-controlled process
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rongalit-potash process
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rotor process
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rustless process
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sample process
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schoop process
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scrap-and-pig process
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scrap-conditioning process
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scrap-ore process
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screen printed process
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self-developing process
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self-healing process
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semibatch process
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semiconductor process
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sending process
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Sendzimir coating process
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sequential process
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silicon-gate MOS process
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silicon-gate process
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silk-screen process
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single-pumpdown process
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SIP process
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skein spinning process
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Skinner multiple-hearth process
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slag minimum process
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slip-casting process
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slow down process
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SLPM process
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SL-RN metallization process
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SL-RN reduction process
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solid source diffusion process
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solution regrowth process
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solvent extraction-electrowinning process
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solvent plug process
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SOS process
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spin-draw-texturizing process
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spinylock process
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sponge iron process
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spontaneous process
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Stanal process
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stationary random process
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STB process
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steady-flow process
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steam-blow process
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steelmaking process
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Stelmor process
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step and repeat process
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stochastic process
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stuffer box process
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submerged arc process
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subtractive process
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suck-and-blow process
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Sulf BT process
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Sulfinuz process
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Sumitomo-slag all recycling process
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Sumitomo-top-bottom process
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Sursulf process
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system process
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TBM process
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T-die process
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Technamation process
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thermal DeNOx process
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Therm-i-Vac process
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Thermo-Flow process
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thermoplastic process
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Thomas process
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Thorex process
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three-color process
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Thyssen-blast-metallurgy process
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Tifran process
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tightly coupled processes
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time-varying process
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trichromatic process
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triplex process
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Tropenas converter process
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Tufftride process
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Tufftride TF1 process
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uncertain process
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user process
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vacuum arc remelting process
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vacuum casting process
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vacuum deoxidation process
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vacuum induction refining process
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vacuum stream-droplet process
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vacuum-arc degassing process
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vacuum-carbodeoxidation process
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vacuum-carbonate process
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vacuum-induction melting process
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vacuum-melting process
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vacuum-metallothermic process
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vacuum-oxygen-decarburization process
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VAD process
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VAR process
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VAW process
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VHSIC process
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vigom process
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VIR process
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viscose process
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visual process
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VLSI process
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VOD process
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waiting process
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water gas process
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waterfall process
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wet process
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white-heart process
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Zinal process
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zinc distilling process -
8 cloudburst
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9 дождевание металлическими шариками
Большой англо-русский и русско-английский словарь > дождевание металлическими шариками
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10 дождевание металлическими шариками
( поверхности) cloudburst processАнгло-русский словарь технических терминов > дождевание металлическими шариками
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11 Herbert, Edward Geisler
[br]b. 23 March 1869 Dedham, near Colchester, Essex, Englandd. 9 February 1938 West Didsbury, Manchester, England[br]English engineer, inventor of the Rapidor saw and the Pendulum Hardness Tester, and pioneer of cutting tool research.[br]Edward Geisler Herbert was educated at Nottingham High School in 1876–87, and at University College, London, in 1887–90, graduating with a BSc in Physics in 1889 and remaining for a further year to take an engineering course. He began his career as a premium apprentice at the Nottingham works of Messrs James Hill \& Co, manufacturers of lace machinery. In 1892 he became a partner with Charles Richardson in the firm of Richardson \& Herbert, electrical engineers in Manchester, and when this partnership was dissolved in 1895 he carried on the business in his own name and began to produce machine tools. He remained as Managing Director of this firm, reconstituted in 1902 as a limited liability company styled Edward G.Herbert Ltd, until his retirement in 1928. He was joined by Charles Fletcher (1868–1930), who as joint Managing Director contributed greatly to the commercial success of the firm, which specialized in the manufacture of small machine tools and testing machinery.Around 1900 Herbert had discovered that hacksaw machines cut very much quicker when only a few teeth are in operation, and in 1902 he patented a machine which utilized this concept by automatically changing the angle of incidence of the blade as cutting proceeded. These saws were commercially successful, but by 1912, when his original patents were approaching expiry, Herbert and Fletcher began to develop improved methods of applying the rapid-saw concept. From this work the well-known Rapidor and Manchester saws emerged soon after the First World War. A file-testing machine invented by Herbert before the war made an autographic record of the life and performance of the file and brought him into close contact with the file and tool steel manufacturers of Sheffield. A tool-steel testing machine, working like a lathe, was introduced when high-speed steel had just come into general use, and Herbert became a prominent member of the Cutting Tools Research Committee of the Institution of Mechanical Engineers in 1919, carrying out many investigations for that body and compiling four of its Reports published between 1927 and 1933. He was the first to conceive the idea of the "tool-work" thermocouple which allowed cutting tool temperatures to be accurately measured. For this advance he was awarded the Thomas Hawksley Gold Medal of the Institution in 1926.His best-known invention was the Pendulum Hardness Tester, introduced in 1923. This used a spherical indentor, which was rolled over, rather than being pushed into, the surface being examined, by a small, heavy, inverted pendulum. The period of oscillation of this pendulum provided a sensitive measurement of the specimen's hardness. Following this work Herbert introduced his "Cloudburst" surface hardening process, in which hardened steel engineering components were bombarded by steel balls moving at random in all directions at very high velocities like gaseous molecules. This treatment superhardened the surface of the components, improved their resistance to abrasion, and revealed any surface defects. After bombardment the hardness of the superficially hardened layers increased slowly and spontaneously by a room-temperature ageing process. After his retirement in 1928 Herbert devoted himself to a detailed study of the influence of intense magnetic fields on the hardening of steels.Herbert was a member of several learned societies, including the Manchester Association of Engineers, the Institute of Metals, the American Society of Mechanical Engineers and the Institution of Mechanical Engineers. He retained a seat on the Board of his company from his retirement until the end of his life.[br]Principal Honours and DistinctionsManchester Association of Engineers Butterworth Gold Medal 1923. Institution of Mechanical Engineers Thomas Hawksley Gold Medal 1926.BibliographyE.G.Herbert obtained several British and American patents and was the author of many papers, which are listed in T.M.Herbert (ed.), 1939, "The inventions of Edward Geisler Herbert: an autobiographical note", Proceedings of the Institution of Mechanical Engineers 141: 59–67.ASD / RTSBiographical history of technology > Herbert, Edward Geisler
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