INDEX OF MATERIALS 2715 Concrete (continued) poured thermal conductivity and conductance 401 specific gravity 407 Copper coefficient of expansion 402 coefficient of heat transmission 402 density 403 element properties 398 melting point 403 polished coefficient of radiation 402 specific heat 400, 403 strength, effect of temperature on 421 vapor deposition on plastics 625 Copper alloys alloy name (UNS number) aluminum brass, arsenical (C68700) 567, 1037, 1072 aluminum bronze, D (C61400) 566, 1037, 1072 architectural bronze (C38500) 564, 1037, 1072 beryllium Cu (C17000) 562, 1037, 1072 (C17200) 403, 562, 1037, 1072 (C17300) 403, 562 (C17500) 562, 1037, 1072 (C17510) 562 C17200 403 C17300 403 brass catridge 70% (C26000) 403 extra-high-leaded (C35600) 403 free machining (C36000) 403 high-leaded (C35300) 403 low-leaded, tube (C33000) 403 naval (C46400) 403 red, 85% (C23000) 403 yellow (C27000) 403 bronze aluminum 11% A (C62400) 403 aluminum 9% A (C62300) 403 commercial, 90% (C22000) 403 nickel aluminum (C63000) 403 phosphor 5% A (C51000) 403 phosphor, free cutting (C54400) 403 cadmium Cu (C16200) 562 (C16210) 562 deoxidized (C14300) 561 deoxidized (C14310) 561 cartridge brass 70% (C26000) 403, 563, 1037, 1072 70% (C26100) 563 70% (C26130) 563 70% (C26200) 563 chromium Cu (C18200) 403, 562 Copper alloys (continued) alloy name (UNS number) (C18400) 562 (C18500) 562 commercial bronze, 90% (C22000) 403, 563, 1037, 1072 Cu nickel 10% (C70600) 568, 1037, 1072 20% (C71000) 568 30% (C71500) 568, 1037, 1072 5% (C70400) 567 Cu– nickel– phosphorus– tellurium (C19100) 562 Cu–nickel–phosphorus (C19000) 562 forging brass (C37700) 564, 1037, 1072 free machining Cu (C14500) 403 free-cutting brass (C36000) 403, 564, 1037, 1072 gilding, 95% (C21000) 563, 1037, 1072 inhibited admiralty (C44300) 565, 1037, 1072 (C44400) 565 (C44500) 565, 1037, 1072 jewelry bronze, 87.5% (C22600) 563, 1037, 1072 leaded brass (C33500) 564, 1037, 1072 (C34000) 564, 1037, 1072 (C34200) 564, 1037, 1072 (C35000) 564 (C35300) 403, 564, 1037, 1072 (C35600) 403, 564, 1037, 1072 tube (C33000) 403, 563 tube (C33200) 564, 1037, 1072 leaded commercial bronze (C31400) 563, 1037, 1072 nickel-bearing (C31600) 563 leaded Cu (C18700) 403, 562 low brass, 80% 563, 1037, 1072 manganese brass (C66700) 567 manganese bronze, A (C67500) 567, 1037, 1072 Muntz metal free-cutt ing (C37000) 564, 1037, 1072 leaded (C36500) 403, 564, 1037, 1072 leaded (C36800) 564, 1037, 1072 60% (C28000) 403, 563, 1037, 1072 naval brass (C46400) 403, 565 (C46700) 565 leaded (C48500) 565, 1037, 1072 medium-leaded (C48200) 565 nickel silver 55–18 (C77000) 568, 1037, 1072 65–10 (C74500) 568, 1037, 1072 65–12 (C75700) 568, 1037, 1072 65–15 (C75400) 568, 1037, 1072 Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY INDEX OF MATERIALS 2716 Copper alloys (continued) alloy name (UNS number) 65–18 (C75200) 568, 1037, 1072 oxygen-free (C10200) 560, 1037, 1072 electronic (C10100) 560–562 extra-low phosphorus (C10300) 560 low phosphorus (C10800) 560 silver-bearing (C10400) 560 (C10500) 560 (C10700) 560 phosphor bronze 1.25% E (C50500 ) 565 10% D (C52400) 566, 1037, 1072 5% A (C51000) 403, 565–566, 1037, 1072 8% C (C52100) 566, 1037, 1072 phosphorus deoxidized Cu arsenical (C14200) 561 high residual phosphorus (C12200) 561, 1037, 1072 low residual phosphorus (C12000) 561 (C12100) 561 red brass, 85% (C23000) 403, 563, 1037, 1072 silicon bronze high, A (C65500) 567, 1037, 1072 low, B (C65100) 567, 1037, 1072 silicon red brass (C69400) 567 sulfur bearing (C14700) 561 (C14710) 561 (C14720) 561 tellurium bearing (C14500) 403, 561 (C14510) 561 (C14520 ) 561 tough pitch electrolytic (C11000) 403, 560–561, 1037, 1072 fire refined, with silver (C12500) 561 (C12700) 561 (C12800) 561 (C12900) 561 (C13000) 561 silver-bearing (C11300) 560 (C11400) 560 (C11500) 560 (C11600) 560 yellow brass (C26800) 563, 1037, 1072 (C27000) 403, 563 zirconium Cu (C15000) 561 beryllium copper elastic properties 420 brass Copper alloys (continued) brass elastic properties cast 420 70-30 420 bronze elastic properties 420 manganese 403 chemical compositions 560 coefficient of expansion 403 density 403 elastic properties 420 elongation 556, 560 investment casting alloys beryllium Cu 10C (820) 417 165C (824) 417 20C (825) 417 275C (828) 417 brass red 417 silicon 417 yellow leaded (854) 417 bronze aluminum, C (954) 417 aluminum, D (955) 417 manganese, A 417 manganese, C 417 silicon 417 tin 417 chrome copper 417 copper (pure) 417 machinability 556, 560 manganese bronze 403 melting point 403 nickel silver elastic properties 420 nickel-silver 403 phosphor bronze elastic properties 420 wire tensile strength 421 powder metal alloys CNZ-1818 419 copper (pure) 419 CTG-1001 419 CTG-1004 419 CZP-3002 419 tensile strength 556, 560 thermal conductivity and conductance 403 UNS number (alloy name) C10100 (oxygen-free electronic) 560– 562 C10200 (oxygen-free Cu) 560, 1037, 1072 C10300 (oxygen-free, extra-low phosphorus) 560 C10400 (oxygen-free, silver- bearing) 560 Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY INDEX OF MATERIALS 2717 Copper alloys (continued) UNS number (alloy name) C10500 (oxygen-free, silver- bearing) 560 C10700 (oxygen-free, silver- bearing) 560 C10800 (oxygen-free, low phosphorus) 560 C11000 (electrolytic tough pitch) 403, 560–561, 1037, 1072 C11300 (silver-bearing tough pitch) 560 C11400 (silver-bearing tough pitch) 560 C11500 (silver-bearing tough pitch) 560 C11600 (silver-bearing tough pitch) 560 C12000 (phosphorus deoxidized Cu, low residual phosphorus) 561 C12100 (phosphorus deoxidized Cu, low residual phosphorus) 561 C12200 (phosphorus deoxidized Cu, high residual phosphorus) 561, 1037, 1072 C12500 (fire-refined tough pitch with silver) 561 C12700 (fire-refined tough pitch with silver) 561 C12800 (fire-refined tough pitch with silver) 561 C12900 (fire-refined tough pitch with silver) 561 C13000 (fire-refined tough pitch with silver) 561 C14200 (phosphorus deoxidized Cu, arsenical) 561 C14300 (cadmium Cu, deoxidized) 561 C14310 (cadmium Cu, deoxidized) 561 C14500 (free machining Cu) 403 C14500 (tellurium bearing) 403, 561 C14510 (tellurium bearing) 561 C14520 (tellurium bearing) 561 C14700 (sulfur bearing) 561 C14710 (sulfur bearing) 561 C14720 (sulfur bearing) 561 C15000 (zirconium Cu) 561 C15500 561 C15715 561 C15720 561 C15760 562 C16200 (cadmium Cu) 562 C16210 (cadmium Cu) 562 C16500 562 C17000 (beryllium Cu) 562, 1037, 1072 C17200 (beryllium Cu) 403, 562, 1037, 1072 C17300 (beryllium Cu) 403, 562 Copper alloys (continued) UNS number (alloy name) C17500 (beryllium Cu) 562, 1037, 1072 C17510 (beryllium Cu) 562 C18200 (chromium Cu) 403, 562 C18400 (chromium Cu) 562 C18500 (chromium Cu) 562 C18700 (leaded copper) 403, 562 C18700 (leaded Cu) 403 C19000 (Cu–nickel–phosphorus) 562 C19100 (Cu– nickel– phosphorus– tellurium alloy) 562 C19200 562 C19400 563 C19500 563 C21000 (gi lding, 95%) 563, 1037, 1072 C22000 (commercial bronze, 90%) 403, 563, 1037, 1072 C22600 (jewelry bronze, 87.5%) 563, 1037, 1072 C23000 (red brass, 85%) 403, 563, 1037, 1072 C24000 (low brass, 80%) 563, 1037, 1072 C26000 (cartridge brass, 70%) 403, 563, 1037, 1072 C26100 (cartridge brass, 70%) 563 C26130 (cartridge brass, 70%) 563 C26200 (cartridge brass, 70%) 563 C26800 (yellow brass) 563, 1037, 1072 C27000 (yellow brass) 403, 563 C28000 (Muntz metal, 60%) 403, 563, 1037, 1072 C31400 (leaded commercial bronze) 563, 1037, 1072 C31600 (leaded commercial bronze, nickel-bearing) 563 C33000 (low-leaded brass tube) 403, 563 C33200 (high-leaded brass tube) 564, 1037, 1072 C33500 (low-leaded brass) 564, 1037, 1072 C34000 (medium-leaded brass) 564, 1037, 1072 C34200 (high-leaded brass) 564, 1037, 1072 C35000 (medium-leaded brass) 564 C35300 (high-leaded brass) 403, 564, 1037, 1072 C35600 (extra-high-leaded brass) 403, 564, 1037, 1072 C36000 (free machining brass) 403 C36000 (free-cutting brass) 403, 564, 1037, 1072 C36500 (leaded Muntz metal) 403, 564, 1037, 1072 C36800 (leaded Muntz metal) 564, 1037, 1072 Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY INDEX OF MATERIALS 2718 Copper alloys (continued) UNS number (alloy name) C37000 (free-cutting Muntz metal) 564, 1037, 1072 C37700 (forging brass) 564, 1037, 1072 C38500 (architectural bronze) 564, 1037, 1072 C40500 564 C40800 564 C41100 564 C41300 564 C41500 565 C42200 565 C42500 565 C43000 565 C43400 565 C43500 565 C44300 (inhibited admiralty) 565, 1037, 1072 C44400 (inhibited admiralty) 565 C44500 (inhibited admiralty) 565, 1037, 1072 C46400 (naval brass) 403, 565 C46700 (naval brass) 565 C48200 (naval brass, medium- leaded) 565 C48500 (leaded naval brass) 565, 1037, 1072 C50500 (phosphor bronze, 1.25% E) 565 C51000 (phosphor bronze, 5% A) 403, 565–566, 1037, 1072 C51100 565 C52100 (phosphor bronze, 8% C) 566, 1037, 1072 C52400 (phosphor bronze, 10% D) 566, 1037, 1072 C54400 403, 566, 1037, 1072 C54400 (free cutting phos. bronze) 403 C60800 566 C61000 566 C61300 566 C61400 (aluminum bronze, D) 566, 1037, 1072 C61500 566 C61800 566 C61900 566 C62300 403, 566 C62300 (aluminum bronze, 9%) 403 C62400 403, 566 C62400 (aluminum bronze, 11%) 403 C62500 566 C63000 403, 566 C63000 (Ni-Al bronze) 403 C63200 566 C63600 567 C63800 567 C64200 555, 567 Copper alloys (continued) UNS number (alloy name) C65100 (low-silicon bronze, B) 567, 1037, 1072 C65500 (high-silicon bronze, A) 567, 1037, 1072 C66700 (manganese brass) 567 C67400 567 C67500 (manganese bronze, A) 567, 1037, 1072 C68700 (aluminum brass, arsenical) 567, 1037, 1072 C68800 567 C69000 567 C69400 (silicon red brass) 567 C70400 (Cu nickel, 5%) 567 C70600 (Cu nickel, 10%) 568, 1037, 1072 C71000 (Cu nickel, 20%) 568 C71500 (Cu nickel, 30%) 568, 1037, 1072 C72200 568 C72500 568 C73500 568 C74500 (nickel silver, 65–10) 568, 1037, 1072 C75200 (nickel silver, 65–18) 568, 1037, 1072 C75400 (nickel silver, 65–15) 568, 1037, 1072 C75700 (nickel silver, 65–12) 568, 1037, 1072 C76390 568 C77000 (nickel silver, 55–18) 568, 1037, 1072 C78200 568 C80100 556 C80300 556 C80500 556 C80700 556 C80900 556 C81100 556 C81300 556 C81400 556 C81500 556 C81700 556 C81800 556 C82000 556 C82100 556 C82200 556 C82400 556 C82500 556 C82600 556 C82700 556 C82800 556 C83300 557 C83400 557 C83600 557 C83800 557 C84200 557 C84400 557 Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY INDEX OF MATERIALS 2719 Copper alloys (continued) UNS number (alloy name) C84500 557 C84800 557 C85200 557 C85400 557 C85500 557 C85700 557 C85800 557 C86100 557 C86200 557 C86300 557 C86400 557 C86500 557 C86700 557 C86800 557 C87200 557 C87400 557 C87500 558 C87600 558 C87800 558 C87900 558 C90200 558 C90300 558 C90500 558 C90700 558 C90900 558 C91000 558 C91100 558 C91300 558 C91600 558 C91700 558 C92200 558 C92300 558 C92500 558 C92600 558 C92700 558 C92800 558 C92900 558 C93200 558 C93400 558 C93500 558 C93700 558 C93800 558 C93900 558 C94300 558 C94400 558 C94500 558 C94700 559 C94800 559 C95200 559 C95300 559 C95400 559 C95500 559 C95600 559 C95700 559 C95800 559 C96200 559 C96300 559 C96400 559 Copper alloys (continued) UNS number (alloy name) C96600 559 C97300 559 C97400 559 C97600 559 C97800 559 C99300 559 C99400 559 C99500 559 C99700 559 C99750 559 UNS numbering syst em 440 yield strength 556, 560 Copper-beryllium alloys tensile strength 570 yield strength 570 10 570 165 570 25 570 35 570 50 570 Copper-silicon alloys (Everdur) 637 569 651 569 655 569 6552 569 661 569 Copper-zinc-tin alloys tensile strength 569 Cord weight per wood in 412 Cordierite (2MgO·2Al2O3·5SiO2) density 415 mechanical properties 415 Corrosion resistance salt water stainless steel 461 Corundum specific heat 400 Cotton-seed oil specific gravity 408 Cottonwood machinability of 414 weight of 413 CPV C density 416 mechanical properties 416 specific gravity 407, 416 CPVC (chlorinated PVC) 407, 416, 592 Curium element properties 398 Cypress weight of 413 weight per board foot 412 C18900 562 D Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY INDEX OF MATERIALS 2720 Density air 428 at various pressures and temperatures 429 aluminum alloys 403 cast iron 404 cast steel 404 ceramics 415 copper alloys 403 ductile iron 404 iron cast 404 ductile 404 malleable 404 malleable iron 404 nickel-base alloys 404 plastics 416 stainless steel alloys 404 Steel cast 404 titanium alloys 404 various metals 403 water 422–423 Dielectric constant nylon 6/6 606 Dielectric strength ceramics 415 plastics 416 Douglas Fir mechanical properties 412 Douglas fir weight of 413 Ductile iron A536 404 coefficient of expansion 404 density 404 investment casting alloys ferritic 418 pearlitic 418 Melting point 404 thermal conductivity and conductance 404 Dysprosium element properties 398 E Earth specific gravity 407 Ebonite coefficient of expansion 402 Einsteinium element properties 398 Element atomic number and weight 398 melting point 398 symbol 398 Elm machinability of 414 Elm (continued) weight of 413 weight per cord 412 Elongation investment casting alloys 417 Emery specific gravity 407 Epoxy coefficient of expansion 402 Erbium element properties 398 Ether boiling point 399 latent heat of evaporation 399 specific heat 400 vapor specific gravity 408 Ether, sulfuric specific gravity 408 Ethylene specific gravity 408 specific heat 400 Europium element properties 398 Everdur chemical composition 569 elongation 569 tensile strength 569 yield strength 569 Everdur (copper-silicon) alloys 637 569 651 569 655 569 6552 569 661 569 F Felt thermal conductivity and conductance 401 Fermium element properties 398 Fiber glass sheet density 416 mechanical properties 416 specific gravity 416 Fiberglass 592 Fir mechanical properties 412 weight of 413 weight per board foot 412 Flexural modulus 601, 604, 607, 613 plastics 416 Flexural strength ceramics 415 Fluoric acid specific gravity 408 Fluorine element properties 398 Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY INDEX OF MATERIALS 2721 Fluoroplastics effect of heat in machining 622 Forsterite (2MgO·SiO2) density 415 mechanical properties 415 Francium element properties 398 Freezing mixtures ammonium nitrate (NH 4 NO 3 ) 403 calcium chloride (CaCl 2 ) 403 potassium hydrate (KOH) 403 sal ammoniac (NH 4 Cl) 403 salt, common 403 Friction, coefficient of 592, 610 Fusel oil specific heat 400 G Gadolinium element properties 398 Gallium element properties 398 Gas specific heat 400 Gasoline specific gravity 408 German silver coefficient of heat transmission 402 Germanium element properties 398 Glass coefficient of expansion 402 coefficient of radiation 402 elastic properties 420 hard coefficient of expansion 402 specific gravity 407 specific heat 400 thermal conductivity and conductance 401 thermometer coefficient of expansion 402 Glass ceramic (machinable) elastic properties 420 Glass ceramic, machinable density 415 mechanical properties 415 Glass fiber for plastics gearing 625 Glass mica density 415 mechanical properties 415 Gold element properties 398 specific gravity 407 specific heat 400 vapor deposition on plastics 625 Granite Granite (continued) coefficient of expansion 402 specific gravity 407 ultimate strength 420 Graphite specific heat 400 Gravel specific gravity 407 Gum weight of 413 Gun cotton ignition temperature 403 Gypsum specific gravity 407 H Hackberry machinability of 414 Hafnium element properties 398 Hardness plastics 416 Helium element properties 398 Hemlock mechanical properties 412 weight of 413 weight per board foot 412 Hickory machinability of 414 weight of 413 Holmium element properties 398 Honeylocust weight of 413 Hydrochloric acid specific gravity 408 Hydrofluoric acid specific gravity 408 Hydrogen element properties 398 specific gravity 408 specific heat 400 I Ice latent heat of fusion 399 specific gravity 407 specific heat 400 Ignition temperature bisulfide of carbon 403 charcoal 403 dry wood oak 403 pine 403 gun cotton 403 nitro-glycerine 403 Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY INDEX OF MATERIALS 2722 Ignition temperature (continued) phosphorus amorphous 403 transparent 403 rifle powder 403 Illuminating gas specific gravity 408 Indium element properties 398 Iodine element properties 398 Iridium element properties 398 Iron cast coefficient of radiation 402 density 404 latent heat of fusion 399 melting point 404 specific gravity 407 specific heat 400, 404 strength, effect of temperature on 421 UNS numbering system 440 coefficient of heat transmission 402 coefficient of radiation 402 ductile density 404 investment casting alloys ferritic 418 pearlitic 418 melting point 404 specific heat 404 elastic properties cast 420 ductile 420 grey cast 420 malleable 420 element properties 398 investment casting alloys 1.2% Si 418 malleable density 404 melting point 404 specific heat 404 powder metal alloys FC-0208 419 FC-0508 419 FC-0800 419 FC-2008 419 FC-2015 419 FL-4605 419 FL-4608 419 FN-0005 419 FN -0200 419 FN-0205 419 FN-0208 419 FN-0405 419 FN-0408 419 FX-2008 419 F-0000 419 Iron (continued) powder metal alloys F-0008 419 sheet, polished coefficient of radiation 402 specific gravity 407 specific heat 400 wrought specific heat 400 strength, effect of temperature on 421 Iron slag specific gravity 407 Izod impact plastics 416 K Kerosene specific gravity 408 specific heat 400 Krypton element properties 398 L Lanthanum element properties 398 Larch weight of 413 Latent heat of evaporation 399 of fusion 399 Lava density 415 mechanical properties 415 Lawrencium element properties 398 Lead coefficient of heat transmission 402 elastic properties 420 element properties 398 latent heat of fusion 399 specific gravity 407 specific heat 400 Lime thermal conductivity and conductance 401 Limestone specific gravity 407 specific heat 400 ultimate strength 420 Linseed oil boiling point 399 specific gravity 408 Liquid crystal polymer chemical resistance to various materials 608 Lithium element properties 398 Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY INDEX OF MATERIALS 2723 Locust weight of 413 Lubricants molybdenum disulfide 625 silicone 625 tetrafluoroethylene (TFE) 625 TFE (tetrafluoroethylene) 625 Lutetium element properties 398 M Magnesia specific heat 400 thermal conductivity and conductance 401 Magnesium coefficient of expansion 402 elastic properties 420 element properties 398 Magnesium alloys bearing strength 588 casting, pressure die cast AM60A 587–588 AM60B 587–588 AS41A 587–588 AZ91A 587–588 AZ91B 587–588 AZ91D 587–588 casting, sand and permanent mold AM100A 587–588 AZ63A 587–588 AZ81A 587–588 AZ91C 587–588 AZ91E 587–588 AZ92A 587–588 EZ33A 587–588 HK31A 587–588 HZ32A 587–588 K1A 587–588 QE22A 587–588 QH21A 587–588 WE54A 587–588 ZE41A 587–588 ZE63A 587–588 ZH62A 587–588 ZK51A 587–588 ZK61A 587–588 compres sive strength 588 elastic properties 420 elongation 588 extrusion AZ10A 587–588 AZ31B 587–588 AZ31C 587–588 AZ61A 587–588 AZ80A 587–588 HM31A 587–588 M1A 587–588 Magnesium alloys (continued) extrusion ZK40A 587–588 ZK60A 587–588 hardness 588 shear strength 588 sheet and plate AZ31B 587–588 AZ31C 587–588 HK31A 587–588 HM21A 587–588 tensile strength 588 yield strength 588 Magnolia machinability of 414 Malleable iron A220 404 coefficient of expansion 404 density 404 melting point 404 thermal conductivity and conductance 404 Manganese element properties 398 Maple machinability of 414 weight of 413 wei ght per cord 412 Marble coefficient of expansion 402 specific gravity 407 specific heat 400 Marsh gas specific gravity 408 Masonry brick coefficient of expansion 402 specific heat 400 specific gravity 407 Maximum operating temperature plastics 416 MB wire tensile strength hard-drawn 421 oil tempered 421 Mechanical properties elongation alloy steel 466 aluminum alloys 576 copper alloys 556, 560 investment casting alloys 417 nickel 590 hardness no. alloy steel 466 impact strength alloy steel 466 machinability copper alloys 556 machinablity Machinery's Handbook 27th Edition Copyright 2004, Industrial Press, Inc., New York, NY [...]... (G23300) 45 1 45 2, 45 7, 53 5 2 340 (G2 340 0) 45 1 45 2, 45 7, 53 5 251 2 (G 251 20) 53 3 251 5 (G 251 50) 45 1, 45 6 251 7 (G 251 70) 53 3 309 05 () 45 1 45 2 31 15 (G31 150 ) 45 1 45 2, 45 6, 53 3 3120 (G31200) 45 1 45 2, 45 6, 53 3 3130 (G31300) 45 1 45 2, 45 7, 53 5 31 35 (G31 350 ) 45 1 45 2, 45 6 45 7, 53 5 3 140 (G3 140 0) 45 1 45 2, 45 7, 46 7, 47 4 3 141 (G3 141 0) 45 1 45 2, 45 7, 53 5 3 1 45 (G3 1 45 0) 45 1, 45 7, 53 5 3 150 (G3 150 0) 45 1, 45 7, 53 5 3 240 (G3 240 0) 45 1... 40 4, 44 8, 45 9, 47 2, 53 6 329 (S32900) 44 8, 45 9 330 (N08330) 44 8, 45 9 347 (S 347 00) 40 4, 44 8, 45 9, 47 2, 53 6 348 (S 348 00) 40 4, 44 8, 45 9, 47 2 3 84 (S3 840 0) 40 4, 44 8, 45 9 40 3 (S40300) 40 4, 44 9, 45 9, 47 2 40 5 (S4 050 0) 40 4, 44 8, 45 9, 47 3 40 9 (S40900) 44 8, 45 9 41 0 (S41000) 40 4, 44 9, 45 9, 47 2, 53 7 41 4 (S4 140 0) 40 4, 44 9, 45 9, 47 3, 53 7 41 6 (S41600) 40 4, 44 9, 45 9, 47 2, 53 7 41 6Se (S41623) 40 4, 44 9, 45 9, 47 2 42 0 (S42000)... number 43 1 (S43100) 44 9, 45 9, 53 7 43 4 (S4 340 0) 44 8, 45 9 46 0 43 6 (S43600) 40 4, 44 8, 46 0 44 0A (S 440 02) 40 4, 44 9, 46 0, 47 3, 53 7 44 0B (S 440 03) 40 4, 44 9, 46 0, 47 3, 53 7 44 0C (S 440 04) 40 4, 44 9, 46 0, 47 3, 53 7 44 0F (S 440 20) 47 3 44 2 (S 442 00) 44 8, 46 0, 53 7 44 6 (S 446 00) 40 4, 44 8, 46 0, 47 3, 53 7 50 1 (S50100) 40 4, 44 9, 46 0, 47 3, 53 7 50 2 (S50200) 40 4, 44 9, 46 0, 47 3 coefficient of expansion 40 4 density 40 4 elastic properties... 47 2, 53 6 2 05 (S2 050 0) 44 8, 45 8 301 (S30100) 40 4, 44 8, 45 7 45 8, 47 2, 53 6 302 (S30200) 40 4, 44 8, 45 8, 47 2, 53 6 302B (S302 15) 40 4, 44 8, 45 8, 47 2 303 (S30300) 40 4, 44 8, 45 8, 47 2, 53 6 303Se (S30323) 40 4, 44 8, 45 8, 47 2 3 04 (S3 040 0) 40 4, 44 8, 45 8, 47 2, 53 6 304Cu (S3 043 0) 40 4, 44 8, 45 8 304L (S3 040 3) 44 8, 45 8, 47 2 304N (S3 0 45 1) 44 8, 45 8 3 05 (S3 050 0) 40 4, 44 8, 45 8 45 9, 47 2, 53 6 308 (S30800) 40 4, 44 8, 45 8, 47 2... 48 17 (G48170) 44 2, 44 6, 45 6, 1029, 1 047 , 1062, 1086 48 20 (G48200) 44 2, 44 6, 45 1 45 2, 45 6, 46 7, 47 4, 5 34, 1029, 1 047 , 10 54 , 1062, 1086 50 B 44 (G5 044 1) 44 2, 44 7, 1029, 1 047 , 1063 50 B46 (G5 046 1) 44 2, 44 7, 47 0, 1029, 1 047 , 1063 50 B50 (G5 050 1) 44 2, 44 7, 1029, 1 047 , 1063 50 B60 (G50601) 44 2, 44 7, 47 0, 1029, 1 047 , 10 54 , 1063 50 100 () 53 5 5 0 45 (G5 0 45 0) 53 5 5 046 (G5 046 0) 47 0, 53 5 50 50 (G5 150 0) 44 6, 45 1 45 2, 45 6–... (30316) 44 8, 45 8 45 9, 46 1, 47 2, 53 6 317 (30317) 44 8, 45 9, 46 1, 47 2, 53 6 321 (30321) 44 8, 45 9, 46 1, 47 2, 53 6 3 25 (303 25) 46 1, 53 6 347 (30 347 ) 44 8, 45 9, 46 1, 47 2, 53 5– 53 6 41 0 (5 141 0) 44 9, 45 9, 46 1, 47 2, 53 7 41 4 (5 141 4) 44 9, 45 9, 46 1, 47 3, 53 7 41 6 (5 141 6) 44 9, 45 9, 47 2, 53 7 42 0 (5 142 0) 44 9, 45 9 46 1, 47 3, 53 7 43 0 (5 143 0) 44 8, 45 9 46 1, 47 3, 53 7 43 1 (5 143 1) 44 9, 45 9, 46 1, 53 7 Copyright 20 04, Industrial... 44 6, 45 7, 53 5, 1086 5 140 (G5 140 0) 44 2, 44 6, 45 1 45 2, 45 7, 46 7, 47 0, 1029, 1 047 , 1063, 1086 5 1 45 (G5 1 45 0) 53 5, 1029, 1 047 , 1063, 1086 5 147 (G5 147 0) 53 5, 1029, 1 047 , 1063 51 50 (G5 150 0) 44 2 51 52 (G5 152 0) 53 5 51 55 (G5 155 0) 44 2, 44 6 51 60 (G51600) 44 2, 44 6, 46 7, 47 0, 1029, 1 047 , 1063 51 710 () 45 1 6118 (G51986) 44 7, 1029, 1 047 , 10 54 , 1062, 1086 6118 (G61180) 44 2 6 150 (G52986) 44 7, 45 1 45 2, 45 7, 46 7, 47 0, 47 4,... (G10700) 44 2, 44 4, 45 1 45 2, 45 4, 1028, 1 046 , 1062 10 74 (G10 740 ) 53 3, 1028, 1 046 , 1062 1078 (G10780) 44 2, 44 4, 45 4, 53 3, 1028, 1 046 , 1062 1080 (G10800) 44 2, 44 4, 45 1 45 2, 45 4, 46 6, 46 8, 53 3, 1028, 1 046 , 1062 10 84 (G10 840 ) 44 2, 44 4, 1028, 1 046 , 1062 10 85 (G10 850 ) 45 1 45 2, 45 4 1086 (G10860) 44 2, 44 4, 45 4, 1028, 1 046 , 1062 1090 (G10900) 44 2, 44 4, 45 2, 45 4, 53 3, 1028, 1 046 , 1062 10 95 (G10 950 ) 44 2, 44 4, 45 1 45 2,... 1027, 1 0 45 , 1061 12L 14 (G12 144 ) 44 2, 44 5, 1027, 1 0 45 , 1061 12L 15 (G121 54 ) 44 5 1211 (G12110) 44 2, 44 5, 1027, 1 0 45 , 1061 1212 (G12120) 44 2, 44 5, 47 4, 1027, 1 0 45 , 1061 1213 (G12130) 44 2, 44 5, 1027, 1 0 45 , 1061 12 15 (G12 150 ) 44 2, 44 5, 1027, 1 0 45 , 1061 151 3 (G 151 30) 44 2, 44 5 15 14 (G 15 140 ) 1027, 1 0 45 , 1061 152 2 (G 152 20) 44 2, 44 5, 10 54 15 24 (G 15 240 ) 44 2, 44 5, 1028, 1 046 , 10 54 , 1061 152 6 (G 152 60) 44 2, 44 5, 1028,... 1029, 1 047 , 1062 43 17 (G43170) 5 34 4320 (G43200) 44 2, 44 6, 45 1, 45 6, 46 7, 5 34, 1029, 1 047 , 10 54 , 1062, 1086 43 37 (G43370) 1029, 1 047 , 1063 43 40 (G4 340 0) 44 2, 44 6, 45 1 45 2, 45 7, 46 7, 46 9, 47 4, 53 5, 1029, 1 047 , 10 54 , 1063, 1086 44 19 (G 441 90) 1029, 1 047 , 1062 44 22 (G 442 20) 1029, 1 047 , 10 54 , 1062 44 27 (G 442 70) 1029, 1 047 , 10 54 , 1062 46 08 (G46080) 5 34 46 15 (G46 150 ) 44 2, 44 6, 45 1 45 2, 45 6, 1029, 1 047 , 10 54 , 1062, . (G31300) 45 1 45 2, 45 7, 53 5 31 35 (G31 350 ) 45 1 45 2, 45 6 45 7, 53 5 3 140 (G3 140 0) 45 1 45 2, 45 7, 46 7, 47 4 3 141 (G3 141 0) 45 1 45 2, 45 7, 53 5 3 1 45 (G 3 1 45 0) 45 1, 45 7, 53 5 3 150 (G3 150 0) 45 1, 45 7, 53 5 3 240 (G3 240 0). (5 144 0A) 44 9, 46 0 46 1, 47 3, 53 7 44 0B (5 144 0B) 44 9, 46 0 46 1, 47 3, 53 7 44 0C (5 144 0C) 44 9, 46 0 46 1, 47 3, 53 7 44 2 (5 144 2) 44 8, 46 0 46 1, 53 7 44 6 (5 144 6) 44 8, 46 0 46 1, 47 3, 53 7 50 1 (51 501) 44 9, 46 0 46 1,. number 43 1 (S43100) 44 9, 45 9, 53 7 43 4 (S4 340 0) 44 8, 45 9 46 0 43 6 (S43600) 40 4, 44 8, 46 0 44 0A (S 440 02) 40 4, 44 9, 46 0, 47 3, 53 7 44 0B (S 440 03) 40 4, 44 9, 46 0, 47 3, 53 7 44 0C (S 440 04) 40 4, 44 9, 46 0, 47 3, 53 7 44 0F