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21 cutter
1) режущий инструмент; резец2) фреза4) резак ( для газовой резки)5) плашка6) ножницы7) кусачки8) насечка•- abrasive waterjet cutter
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22 Bibliography
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The creative circle: Sketches on the natural history of circularity. In P. Watzlawick (Ed.), The invented reality (pp. 309-324). New York: W. W. Norton.■ Voltaire (1961). On the Penseґs of M. Pascal. In Philosophical letters (pp. 119-146). E. Dilworth (Trans.). Indianapolis: Bobbs-Merrill.■ Wagman, M. (1991a). Artificial intelligence and human cognition: A theoretical inter comparison of two realms of intellect. Westport, CT: Praeger.■ Wagman, M. (1991b). Cognitive science and concepts of mind: Toward a general theory of human and artificial intelligence. Westport, CT: Praeger.■ Wagman, M. (1993). Cognitive psychology and artificial intelligence: Theory and re search in cognitive science. Westport, CT: Praeger.■ Wagman, M. (1995). The sciences of cognition: Theory and research in psychology and artificial intelligence. Westport, CT: Praeger.■ Wagman, M. (1996). Human intellect and cognitive science: Toward a general unified theory of intelligence. Westport, CT: Praeger.■ Wagman, M. (1997a). Cognitive science and the symbolic operations of human and artificial intelligence: Theory and research into the intellective processes. Westport, CT: Praeger.■ Wagman, M. (1997b). The general unified theory of intelligence: Central conceptions and specific application to domains of cognitive science. Westport, CT: Praeger.■ Wagman, M. (1998a). Cognitive science and the mind- body problem: From philosophy to psychology to artificial intelligence to imaging of the brain. Westport, CT: Praeger.■ Wagman, M. (1998b). Language and thought in humans and computers: Theory and research in psychology, artificial intelligence, and neural science. Westport, CT: Praeger.■ Wagman, M. (1998c). The ultimate objectives of artificial intelligence: Theoretical and research foundations, philosophical and psychological implications. Westport, CT: Praeger.■ Wagman, M. (1999). The human mind according to artificial intelligence: Theory, re search, and implications. Westport, CT: Praeger.■ Wagman, M. (2000). Scientific discovery processes in humans and computers: Theory and research in psychology and artificial intelligence. Westport, CT: Praeger.■ Wall, R. (1972). Introduction to mathematical linguistics. Englewood Cliffs, NJ: Prentice-Hall.■ Wallas, G. (1926). The Art of Thought. New York: Harcourt, Brace & Co.■ Wason, P. (1977). Self contradictions. In P. Johnson-Laird & P. Wason (Eds.), Thinking: Readings in cognitive science. Cambridge: Cambridge University Press.■ Wason, P. C., & P. N. Johnson-Laird. (1972). Psychology of reasoning: Structure and content. Cambridge, MA: Harvard University Press.■ Watson, J. (1930). Behaviorism. New York: W. W. Norton.■ Watzlawick, P. (1984). Epilogue. In P. Watzlawick (Ed.), The invented reality. New York: W. W. Norton, 1984.■ Weinberg, S. (1977). The first three minutes: A modern view of the origin of the uni verse. New York: Basic Books.■ Weisberg, R. W. (1986). Creativity: Genius and other myths. New York: W. H. Freeman.■ Weizenbaum, J. (1976). Computer power and human reason: From judgment to cal culation. San Francisco: W. H. Freeman.■ Wertheimer, M. (1945). Productive thinking. New York: Harper & Bros.■ Whitehead, A. N. (1925). Science and the modern world. New York: Macmillan.■ Whorf, B. L. (1956). In J. B. Carroll (Ed.), Language, thought and reality: Selected writings of Benjamin Lee Whorf. Cambridge, MA: MIT Press.■ Whyte, L. L. (1962). The unconscious before Freud. New York: Anchor Books.■ Wiener, N. (1954). The human use of human beings. Boston: Houghton Mifflin.■ Wiener, N. (1964). God & Golem, Inc.: A comment on certain points where cybernetics impinges on religion. Cambridge, MA: MIT Press.■ Winograd, T. (1972). Understanding natural language. New York: Academic Press.■ Winston, P. H. (1987). Artificial intelligence: A perspective. In E. L. Grimson & R. S. Patil (Eds.), AI in the 1980s and beyond (pp. 1-12). Cambridge, MA: MIT Press.■ Winston, P. H. (Ed.) (1975). The psychology of computer vision. New York: McGrawHill.■ Wittgenstein, L. (1953). Philosophical investigations. Oxford: Basil Blackwell.■ Wittgenstein, L. (1958). The blue and brown books. New York: Harper Colophon.■ Woods, W. A. (1975). What's in a link: Foundations for semantic networks. In D. G. Bobrow & A. Collins (Eds.), Representations and understanding: Studies in cognitive science (pp. 35-84). New York: Academic Press.■ Woodworth, R. S. (1938). Experimental psychology. New York: Holt; London: Methuen (1939).■ Wundt, W. (1904). Principles of physiological psychology (Vol. 1). E. B. Titchener (Trans.). New York: Macmillan.■ Wundt, W. (1907). Lectures on human and animal psychology. J. E. Creighton & E. B. Titchener (Trans.). New York: Macmillan.■ Young, J. Z. (1978). Programs of the brain. New York: Oxford University Press.■ Ziman, J. (1978). Reliable knowledge: An exploration of the grounds for belief in science. Cambridge: Cambridge University Press.Historical dictionary of quotations in cognitive science > Bibliography
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23 станок
I муж.
1) тех. machine;
lathe;
press;
bench деревообделочный станок ≈ woodworker револьверный станок ≈ turret-lathe поперечно-строгальный станок ≈ shaping-machine винторезный станок ≈ screw-cutter, threader ленточно-шлифовальный станок ≈ sander копировальный станок ≈ profiling machine продольно-строгальный станок ≈ planer тех. дыропробивной станок ≈ perforator станок карусельный ≈ vertical lathe сверлильный станок ≈ boring mill, perforator, driller буровой станок ≈ boring rig, rig ткацкий станок ≈ loom строгальный станок ≈ planer фрезерный станок ≈ milling machine печатный станок ≈ printing-press режущий станок ≈ cutter фуговочный станок ≈ jointer
2) воен. (оружия) mount( ing) прицельный станок ≈ aiming rest пулеметный станок ≈ machine-gun mount II муж. (о лошади) stall -
24 cutter
1) горн. выемочный комбайн2) нефт. шарошка3) резак; нож4) режущий инструмент; резец; фреза6) плашка8) сил. отрезной стол9) мн. ч. кусачки10) насечка11) полигр., пищ. резальное устройство; резальная машина12) куттер13) рекордер15) гравёр16) сил. гранильщик17) швейн. раскройная машина18) швейн. раскройщик; закройщик19) с.-х. жатка; косилка; режущий аппарат20) с.-х. измельчитель, измельчающий аппарат•-
acetylene cutter
-
air-bearing fly cutter
-
angle-milling cutter
-
arbor-type milling cutter
-
arbor-type cutter
-
automated coal cutter
-
bale cutter
-
ball-ended type cutter
-
bar cutter
-
bar-and-cake soap cutter
-
bark cutter
-
beam cutter
-
bias cutter
-
bolt cutter
-
boring cutter
-
bush cutter
-
butter cutter
-
carbide tipped inserted blade cutter
-
carbide-tipped milling cutter
-
circular cutter
-
clay cutter
-
cloth cutter
-
coal cutter
-
coarse-tooth milling cutter
-
coarse-tooth cutter
-
comb cutter
-
concave form milling cutter
-
concave form cutter
-
conical milling cutter
-
conical cutter
-
core-forming rolling cutter
-
cross rolling cutters
-
crushing cutter
-
crystal cutter
-
cutoff cutter
-
diamond cutter
-
diamond tool fly cutter
-
die cutter
-
disk cutter
-
disk rolling cutter
-
disk-type gear milling cutter
-
disk-type gear cutter
-
double-angle milling cutter
-
double-angle cutter
-
double-shaft bowl cutter
-
electromagnetic cutter
-
emery cutter
-
end-mill type gear cutter
-
end-milling cutter
-
explosive pipe cutter
-
external pipe cutter
-
face-milling cutter
-
feat-ended cutter
-
file cutter
-
film cutter
-
filter tube cutter
-
fine-tooth milling cutter
-
fine-tooth cutter
-
fish cutter
-
flame cutter
-
flexographic die cutter
-
fluting cutter
-
fly cutter
-
form-milling cutter
-
form-relieved milling cutter
-
form-relieved cutter
-
gage rolling cutter
-
gang cutter
-
gate cutter
-
gear-milling cutter
-
glass cutter
-
greens cutter
-
grits cutter
-
grooving cutter
-
guillotine cutter
-
gusset cutter
-
half-side milling cutter
-
half-side cutter
-
helical-flute milling cutter
-
helical-flute cutter
-
hobbing cutter
-
hole-boring cutter
-
hot-wire cutter
-
hydraulic pipe cutter
-
inserted blade cutter
-
inserted teeth cutter
-
insert-type rolling cutter
-
inside pipe cutter
-
jet pipe cutter
-
keyway-milling cutter
-
metalI slitting cutter
-
milling cutter
-
molding cutter
-
multicone rolling cutter
-
multinozzle cutter
-
multiple-thread milling cutter
-
multiple-thread cutter
-
open frame cutter
-
outside circular pipe cutter
-
paper cutter
-
piezoelectric cutter
-
pipe cutter
-
plain milling cutter
-
plain cutter
-
reground cutter
-
retracting milling cutter
-
revenue cutter
-
roller cutter
-
root cutter
-
sand-jet pipe cutter
-
score cutter
-
scrap cutter
-
separate nozzle gas cutter
-
shank-type milling cutter
-
shank-type cutter
-
shaping cutter
-
shaving cutter
-
sheet cutter
-
shell-milling cutter
-
side milling cutter
-
side cutter
-
side angle milling cutter
-
side angle cutter
-
single-angle milling cutter
-
single-angle cutter
-
single-thread millingcutter
-
single-thread cutter
-
slot-milling cutter
-
slug cutter
-
soap cutter
-
solid milling cutter
-
solid cutter
-
solid-molding cutter
-
spiral milling cutter
-
splicing cutter
-
sprue cutter
-
staple cutter
-
straight-flute milling cutter
-
straight-flute cutter
-
strip cutter
-
tab cutter
-
tea cutter
-
thread-milling cutter
-
timber cutter
-
tobacco cutter
-
toothed rolling cutter
-
tubing cutter
-
turf cutter
-
vacuum cutter
-
vegetable cutter
-
water jet coal cutter
-
wire cutters
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wire rope cutter -
25 operation
1) операция, технологическая операция; переход, технологический переход2) работа; действие3) эксплуатация6) управление ( оборудованием)•in operation — в работе; в действии
in one operation — за одну операцию; с одного установа ( на станок)
- acceptable operationto come into operation — вступать в работу; входить в действие
- accidental operation
- adaptive operation
- AMT operations
- assembly operation
- at-a-glance operation
- attendant operation
- auto lathe operation
- automatic cycle operation
- back-face operation
- batch operation
- benching operations
- bidirectional random select operation
- bidirectional skip operation
- blanking operation
- Boolean operation
- bore operation
- bulk metal removal operation
- carbide operation
- cavity dumped operation
- CCS operation
- cell-style operation
- checking operation
- chipmaking operation
- chucking operation
- clearing operation
- CNC operation
- CNC-mode operation
- coded operation
- computer operation
- concurrent operation
- conditional branch operation
- constrained current operation
- continuous machining operation
- continuous operation
- continuous wave laser operation
- continuous wave operation
- control operation
- counting operation
- creep feed operation
- critical tolerance operation
- cross-slide operation
- cross-working operation
- cubing operation
- cutting operation
- cyclic operation
- degraded-mode operation
- die operations
- directional operation
- DNC operation
- do-nothing operation
- downstream operation
- dressing operation
- drill operation
- drilling operation
- drop operation
- dual operation
- dual-system operation
- dummy operation
- EDM operation
- emergency operation
- end milling operation
- end operations
- English/metric operations
- erroneous operation
- error-corrective operation
- extended operations
- extended untended operation
- facing operation
- failsafe operation
- fail-soft operation
- fault-free operation
- finish operation
- finish-turning operation
- five-axis operation
- fixed cycle operation
- flexible operation
- floor-to-floor operation
- follower operation
- form milling contour operation
- forming operation
- four quadrant operation
- free current operation
- gang milling operation
- giant-pulse operation
- GO TO operation
- grinding operation
- grouped operation
- hand operation
- handling operation
- hands-on operation
- hardware operation
- high-feed operation
- highly repetitive operations
- high-speed operation
- high-temperature operation
- high-torque operation
- high-volume drilling operations
- high-volume operations
- high-volume turning operations
- hole-finishing operation
- hole-making operations
- hot operations
- icon-based operation
- ID operation
- inadvertent operation
- independent operation
- index head operation
- integral robotic and manual operations
- interactive operation
- intermittent operation
- interrelated operations
- irreversible operation
- lathe-facing operation
- lean operation
- lights-out operations
- logical operation
- long production operations
- low-maintenance operation
- low-torque operation
- machining operation
- macro operation
- manned operation
- manual joystick operation
- manual operation
- manufacturing operation
- mass-production operations
- matrix operation
- mechanical operation
- memory operation
- mill operation
- milling operation
- minimally-manned operation
- minimally-tended operation
- missing operation
- mixed metal forming-and-machining operations
- mixed operation
- mode-locking operation
- multifixtured operation
- multihead operation
- multimachine operation
- multimachining operation
- multimode operation
- multiple-pass operation
- multiturning operations
- multiwheel operation
- NC operation
- no-failure operation
- no-load operation
- non personal operation
- non technical personal operation
- noninterruptible operation
- nonloaded operation
- nonproductive operation
- nonturning operation
- normal operation
- OD operation
- off-line prequalifying operation
- off-wire operation
- often-used keyboard operation
- one-button hit operation
- one-step operation
- one-touch manual operation
- on-line operation
- on-load operation
- on-off operation
- open-air operation
- open-circuit operation
- overlapping operations
- parting off operation
- pedal operation
- peripheral operation
- pick-and-place operation
- pilot operation
- plant-floor operations
- point-to-point operation
- postdrill operation
- post-forming operation
- post-machining operations
- power operation
- predrill operation
- premachining operation
- press operation
- privileged operation
- profiling operation
- pulse laser operation
- pulsed operation
- punched tape operation
- Q-switched operation
- qualifying operation
- quiet operation
- read operation
- remanufacturing operations
- remote operation
- repetitive operation
- reworking operation
- roughing operation
- round-the-clock operation
- safe operation
- search operation
- searching operation
- secondary operations
- self-contained operation
- self-correcting operation
- semifinish operation
- sequence-linked operations
- sequential operation
- serial operation
- setting operation
- short-circuit operation
- shuttle operation over several workpieces
- shuttle operation
- single setup operation
- single-block operation
- single-frequency laser operation
- single-handed operation
- single-mode operation
- single-part operations
- single-pass operation
- single-point operation
- slitting operation
- smooth operation
- software operation
- stall/restart operation
- standalone operation
- steady operation
- stopping operation
- straight turning operation
- switch operation
- switchable inch-metric operation
- switching operation
- take operation
- tapeless operation
- teach pendant operation
- tended operation
- three-axis operation
- time-sharing operation
- tooling operation
- toolroom operations
- torquing operation
- transfer operation
- trouble-free operation
- turning operation
- turnkey operations
- turn-round operation
- two-axis operation
- two-frequency laser operation
- two-handed operation
- two-shift operation
- two-sided operation
- two-step operation
- unattended operation
- unconditional branch operation
- universal operation
- unmanned operation
- untended operation
- upstream operation
- vertical shaping operation
- wet operation
- write operation
- zeroing operation
- zero-point return operationEnglish-Russian dictionary of mechanical engineering and automation > operation
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26 tool
1) инструмент; орудие, орудие производства2) резец; инструмент, режущий инструмент; черновой резец ( зубострогального станка)3) приспособление; оснастка4) pl инструментарий; средства; совокупность инструментов6) налаживать ( станок)•to adjust the tool axially — регулировать инструмент в осевом направлении, смещать инструмент в осевом направлении
- 3D modeling toolsto tool roughly — начерно обрабатывать, грубо обрабатывать
- abrading tool
- abrasive tool
- AC-assisted machine tool
- activated tool
- adapter tool
- adjusting tool
- AI tools
- AI-based modeling tools
- air tool
- alternate tool
- analysis tool
- angle head tool
- angle portable tool
- angled tool
- angle-drilling tool
- annular broaching tool
- antivibration jumper installing tool
- application tools
- arm tool
- assembly tool
- assigned tool
- auxiliary tool
- backspot-facing tool
- backup tool
- back-working tool
- bad tool
- ball nose end cutting tool
- ball-nosed cutting tool
- band tool
- bending tool
- bent tool
- best tools
- blanking tool
- block tool
- boring tool
- box tool
- brazed tool
- brazed-tip tool
- broach tool
- broaching tool
- broad-nose finishing tool
- broad-nosed finishing tool
- broad-nosed tool
- broad-parting tool
- broad-tool
- BTA tool
- bucking tool
- burnishing tool
- burring tool
- cam-controlled machine tool
- carbide tool
- carbide-faced tool
- carbide-inserted tool
- carbide-tipped tool
- carbon-steel tool
- cartridge-type tool
- caulking tool
- CBN cutting tool
- CBN tool
- cemented carbide tool
- cemented-oxide tool
- center tool
- centering tool
- centering-and-facing tool
- ceramic tool
- chamfering tool
- chasing tool
- chemical vapor deposited tools
- chipped tool
- circular form tool
- circular tool
- clamped-tip tool
- clamping tool
- clipping tool
- CNC tools
- CNC ultra-precision machine tool
- CNC-sharpened tool
- coated tool
- coated-carbide cutting tool
- coining press tool
- collet release tool
- collet tool
- combination internal-external tool
- combination machine tool
- combination tool
- combined tool
- computer-controlled machine tool
- contour form milling tool
- contour milling tool
- contour turning tool
- control tools
- coolant-fed tool
- copy lathe tool
- copying tool
- cordless SPC tool
- core tool
- corrugated tool
- counterboring tool
- counter-rotating tool
- cross-drilling/milling tools
- crossworking tool
- crowning shaving tool
- cubic-boron-nitride cutting tool
- cup tool
- curling press tool
- customized machine tool
- cutoff tool
- cutter tool
- cutting laser tool
- cutting tool with inserted blades
- cutting tool
- cutting-off bit tool
- cutting-off tool
- CVD tools
- dead-end tool
- debugging tools
- deburring tool
- dedicated tool
- deep pocket tool
- design tools
- design verification tools
- development tools
- diagnostics tools
- diamond burnishing tool
- diamond tool
- diamond-coated tool
- diamond-edge tool
- diamond-plated tool
- diamond-turning tool
- digitized tool
- disposable cutting tools
- disposable insert tool
- DNC machine tool
- DNC-supported machine tool
- double-acting deburring tool
- double-diameter tool
- double-index roughing tool
- dressing tool
- drill burnishing tool
- drill tool
- drill/tap tool
- drilling tool
- driven tool
- driving tool
- duplicate tools
- edge tool
- EDM tool
- embossing press tool
- end mill tool
- end tool
- end-cutting tool
- end-working tool
- engraving tool
- erecting tool
- expandable abrading tool
- expanding block boring tool
- expanding block-type boring tool
- external tool
- external turning tool
- face grooving tool
- facing tool
- fastening tool
- feed-out tool
- fillet tool
- filleting tool
- fine boring tool
- finish tool
- finish-cut tool
- finishing tool
- first-selection backup tools
- fixed tool
- flat form tool
- flatted parallel shank tool
- flooded coolant tool
- fluted tool
- fly tool
- follow tools
- form tool
- forming machine tool
- forming tool
- fresh cutting tool
- front endworking tool
- gaged master tool
- ganged tools
- gear cutting tool
- gear tool
- general-purpose machine tool
- generating tool
- gooseneck tool
- grabbing tool
- grinding tool
- gripper tool
- gripping tool
- grooving tool
- hand-guided tool
- hand-held grinding tool
- hand-held tool
- hard pointed tool
- heading tool
- heavy-duty machine tool
- high-positive geometry tool
- high-positive-rake tool
- high-speed machine tool
- high-speed steel tool
- high-speed steel-cutting tool
- high-usage tools
- hold-down tool
- honing tool
- hot-set tool
- ID step tool
- ID tool
- idling tool
- image acquisition tools
- impregnated abrasive tool
- impregnated diamond tool
- inactive tool
- indexable cutting tool
- indexable-insert tool
- indexing machine tool
- infeed slide tool
- injection tool
- in-line powered tool
- insert tool
- inserted blade-type tool
- inserted carbide tool
- inserted tip tool
- insertion tool
- inside corner tool
- inside recessing tool
- inside turning tool
- inspection tool
- installation tool
- integrated tools
- integration tools
- interactive design tools
- internal boring tool
- internal diameter tool
- internally operating tool
- inward flanging press tool
- ironing press tool
- irradiated tool
- knowledge engineering tools
- knurling tool
- lab-quality inspection tool
- lancing press tool
- lapping tool
- large hybrid system building tools
- large narrow system building tools
- laser alignment tools
- laser leveling tool
- laser tool
- lathe tool
- layout tool
- left-hand tool
- leveling tool
- LH tool
- life-expired tool
- linear mounted tool
- locating tool
- logic-synthesis tools
- machine tool
- machining tool
- manually adjustable tool
- marking tool
- master tool
- measuring tool
- metal-cutting tool
- metalforming machine tool
- microsizing tool
- migrating tool
- milling tool
- miniCNC machine tool
- misplaced tool
- mis-set tool
- modeling tools
- modular tool
- mold tool
- molding tool
- monocrystalline diamond tool
- multicavity molding tool
- multifaceted tool
- multifluted tool
- multigrooving tool
- multiimpression injection tool
- multiple blanking tool
- multiple insert tool
- multiple-cavity mold tool
- multiple-impression press tool
- multipoint tool
- multipoint-cutting tool
- multitoothed tool
- narrow system building tools
- NC machine tool
- NC tool
- negative-rake cutting tool
- noncutting machine tool
- nonrotating tool
- notching press tool
- odd-fluted cutting tool
- OD-turning tool
- OD-working tool
- offset tool
- oil hole tool
- old tool
- one-sensor-one tool
- operating tool
- order-related tool
- outward flanging press tool
- pallet tools
- parallel-shank tool
- parallel-shanked tool
- particle-type dressing tool
- parting press tool
- parting tool
- part-off tool
- PCD tool
- percussive tool
- perishable tool
- physicochemical machine tool
- pickup tool
- piercing tool
- placement tool
- planer tool
- planing tool
- platen-mounted tool
- pneumatic tool
- polishing machine tool
- polycrystalline CBN cutting tool
- polycrystalline-diamond-edge tool
- polycrystalline-diamond-tipped tool
- polygon tool
- polygonal tool
- portable air tool
- portable expanding tool
- portable pneumatic tool
- portable power tool
- portable sinking tool
- portable tool
- positive/negative tool
- positive/positive tool
- positive-rake cutting tool
- positive-rake tool
- power tools
- powered rotary tool
- powered tool
- power-positioned tool
- preadjusted tool
- preformed boring tool
- preset qualified tool
- preset tool
- presettable tool
- press tool
- prismatic tool
- probe tool
- process tool
- processing tool
- production machine tool
- profiling tool
- programming tools
- protuberance tool
- punching press tool
- qualified tool
- quick-change tools
- rack-type tool
- radial cutting tool
- radioactive tool
- random tool
- rapid change tool
- rapidly wearing tool
- rear endworking tool
- rebuilt machine tool
- recessing tool
- reciprocating gear cutting tool
- reconditioned tool
- refurbished tool
- replaceable-insert tool
- replacement tool
- retrofitted machine tool
- RH tool
- right-angled powered tool
- right-hand tool
- rivet shaving tool
- roller-burnishing tool
- roll-forming tool
- rolling-in tool
- rotary pneumatic tool
- rotary tool
- rotating tool
- rotating turret tool
- rough boring tool
- rough cut tool
- roughing tool
- rough-turning tool
- round tool
- rounded tool
- round-nose tool
- round-nosed tool
- router tool
- routing tool
- scraping tool
- screw-cutting tool
- screw-rolling tool
- second selection backup tools
- segmented bulging press tool
- self-correcting tool
- shank tool
- shankless cutting tool
- shaped tool
- shaper-cutting tool
- shaping tool
- shared tools
- shaving press tool
- shaving tool
- shear tool
- short chipping tool
- side cutting tool
- side tool
- silicon nitride cutting tools
- silicon nitride tool
- simulation tools
- single-crystal tool
- single-layer tool
- single-pass tool
- single-point threading tool
- single-point tool
- single-purpose machine tool
- single-tip tool
- sister tool
- slitting tool
- slotting tool
- smoothing roller tool
- software development tools
- software tools
- software-based integration tools
- solid bit tool
- solid carbide tool
- solid modeling tools
- solid tool
- SPC tool
- specialized machine tool
- specially outfitted machine tool
- spent tool
- spindle probe tool
- spinning tool
- spline drive tool
- split bulging press tool
- spot-facing tool
- spotting tool
- square cutting tool
- square thread tool
- stamping tool
- static tool
- stationary tool
- step tool
- straight portable tool
- straight shank tool
- straight tool
- straight turning tool
- stripping tool
- stub boring tool
- superabrasive-plated tool
- support tools
- surfacing tool
- swan-neck tool
- sweep tool
- sweeping tool
- tail-end tools
- taper shank tool
- tapered shank tool
- tapping tool
- taught tool
- testing tools
- thermal tool
- thread milling tool
- thread turning tool
- thread-cutting tool
- threaded shank tool
- threading tool
- thread-rolling tool
- throwaway carbide tool
- throwaway insert tool
- throwaway tip tool
- throwaway tool
- tipped tool
- titanium-carbide-coated tool
- to tool up
- touch sensitive tool
- transfer tool
- transparent tool
- trepanning tool
- triangular cutting tool
- trim tool
- truing tool
- tube-expanding tool
- Tunruf tool
- turning tool
- turret tool
- ultrasonic tool
- undercutting tool
- underrun tool
- underused tool
- underutilized tool
- undetected broken tool
- unit-type machine tool
- universal boring and thread milling tool
- unmanned machine tool
- untended CNC machine tool
- versatile machine tool
- vibrating tool
- viscous damped tool
- visualization tools
- V-thread tool
- wear-prone tool
- welding laser tool
- wide-finishing tool
- wire-forming tool
- wireless measuring tool
- wobble broach tool
- wood-cutting tool
- workplace tool
- worm-configured tool
- worn cutting tool
- X-axis tool
- Y-axis tool
- Z-axis toolEnglish-Russian dictionary of mechanical engineering and automation > tool
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27 Junghans, Siegfried
SUBJECT AREA: Metallurgy[br]b. 1887d. 1954[br]German pioneer of the continuous casting of metals.[br]Junghans was of the family that owned Gebrüder Junghans, one of the largest firms in the German watch-and clockmaking industry. From 1906 to 1918 he served in the German Army, after which he took a course in metallurgy and analytical chemistry at the Technical High School in Stuttgart. Junghans was then given control of the brassworks owned by his family. He wanted to make castings simply and cheaply, but he found that he lacked the normal foundry equipment. By 1927, formulating his ideas on continuous casting, he had conceived a way of overcoming this deficiency and began experiments. By the time the firm was taken over by Wieland-Werke AG in 1931, Junghans had achieved positive results. A test plant was erected in 1932, and commercial production of continuously cast metal followed the year after. Wieland told Junghans that a brassfounder who had come up through the trade would never have hit on the idea: it took an outsider like Junghans to do it. He was made Technical Director of Wielands but left in 1935 to work privately on the development of continuous casting for all metals. He was able to license the process for non-ferrous metals during 1936–9 in Germany and other countries, but the Second World War interrupted his work; however, the German government supported him and a production plant was built. In 1948 he was able to resume work on the continuous casting of steel, which he had been considering since 1936. He pushed on in spite of financial difficulties and produced the first steel by this process at Schorndorf in March 1949. From 1950 he made agreements with four firms to work towards the pilot plant stage, and this was achieved in 1954 at Mannesmann's Huckingen works. The aim of continuous casting is to bypass the conventional processes of casting molten steel into ingots, reheating the ingots and shaping them by rolling them in a large mill. Essentially, in continuous casting, molten steel is drawn through the bottom of a ladle and down through a water-cooled copper mould. The unique feature of Junghans's process was the vertically reciprocating mould, which prevented the molten metal sticking as it passed through. A continuous length of steel is taken off and cooled until it is completely solidified into the required shape. The idea of continuous casting can be traced back to Bessemer, and although others tried to apply it later, they did not have any success. It was Junghans who, more than anybody, made the process a reality.[br]Further ReadingK.Sperth and A.Bungeroth, 1953, "The Junghans method of continuous casting of steel", Metal Treatment and Drop Forging, Mayn.J.Jewkes et al., 1969, The Sources of Invention, 2nd edn, London: Macmillan, pp. 287 ff.LRD -
28 Polhem, Christopher
SUBJECT AREA: Mining and extraction technology[br]b. 18 December 1661 Tingstade, Gotland, Sweden d. 1751[br]Swedish engineer and inventor.[br]He was the eldest son of Wolf Christopher Polhamma, a merchant. The father died in 1669 and the son was sent by his stepfather to an uncle in Stockholm who found him a place in the Deutsche Rechenschule. After the death of his uncle, he was forced to find employment, which he did with the Biorenklou family near Uppsala where he eventually became a kind of estate bailiff. It was during this period that he started to work with a lathe, a forge and at carpentry, displaying great technical ability. He realized that without further education he had little chance of making anything of his life, and accordingly, in 1687, he registered at the University of Uppsala where he studied astronomy and mathematics, remaining there for three years. He also repaired two astronomical pendulum clocks as well as the decrepit medieval clock in the cathedral. After a year's work he had this clock running properly: this was his breakthrough. He was summoned to Stockholm where the King awarded him a salary of 500 dalers a year as an encouragement to further efforts. Around this time, one of increasing mechanization and when mining was Sweden's principal industry, Pohlem made a model of a hoist frame for mines and the Mines Authority encouraged him to develop his ideas. In 1693 Polhem completed the Blankstot hoist at the Stora Kopparberg mine, which attracted great interest on the European continent.From 1694 to 1696 Polhem toured factories, mills and mines abroad in Germany, Holland, England and France, studying machinery of all kinds and meeting many foreign engineers. In 1698 he was appointed Director of Mining Engineering in Sweden, and in 1700 he became Master of Construction in the Falu Mine. He installed the Karl XII hoist there, powered by moving beams from a distant water-wheel. His plan of 1697 for all the machinery at the Falu mine to be driven by three large and remote water-wheels was never completed.In 1707 he was invited by the Elector of Hanover to visit the mines in the Harz district, where he successfully explained many of his ideas which were adopted by the local engineers. In 1700, in conjunction with Gabriel Stierncrona, he founded the Stiersunds Bruk at Husby in Southern Dalarna, a factory for the mass production of metal goods in iron, steel and bronze. Simple articles such as pans, trays, bowls, knives, scissors and mirrors were made there, together with the more sophisticated Polhem lock and the Stiersunds clock. Production was based on water power. Gear cutting for the clocks, shaping hammers for plates, file cutting and many other operations were all water powered, as was a roller mill for the sheet metal used in the factory. He also designed textile machinery such as stocking looms and spinning frames and machines for the manufacture of ribbons and other things.In many of his ideas Polhem was in advance of his time and Swedish country society was unable to absorb them. This was largely the reason for the Stiersund project being only a partial success. Polhem, too, was of a disputatious nature, self-opinionated almost to the point of conceit. He was a prolific writer, leaving over 20,000 pages of manuscript notes, drafts, essays on a wide range of subjects, which included building, brick-making, barrels, wheel-making, bell-casting, organ-building, methods of stopping a horse from bolting and a curious tap "to prevent serving maids from sneaking wine from the cask", the construction of ploughs and threshing machines. His major work, Kort Berattelse om de Fornamsta Mechaniska Inventioner (A Brief Account of the Most Famous Inventions), was printed in 1729 and is the main source of knowledge about his technological work. He is also known for his "mechanical alphabet", a collection of some eighty wooden models of mechanisms for educational purposes. It is in the National Museum of Science and Technology in Stockholm.[br]Bibliography1729, Kort Berattelse om de Fornamsta Mechaniska Inventioner (A Brief Account of the Most Famous Inventions).Further Reading1985, Christopher Polhem, 1661–1751, TheSwedish Daedalus' (catalogue of a travelling exhibition from the Swedish Institute in association with the National Museum of Science and Technology), Stockholm.IMcN
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