bisalloy tech guide 2012-2013
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BISPLATE®
technical guide
For more information regarding BISPLATE® refer to the technical information pdf documents provided on the Bisalloy Steels® website at www.bisalloy.com.au
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BISPLATE®
technical guide
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ConTEnTS
Introduction 3
HowtoContactUs 4
ProcessRoute 5
RangeofGrades 6
BISPLATE®SizeRange 30
ManufacturingTolerances 31
CuttingBISPLATE® 35
WeldingBISPLATE® 45
Bending,Rolling,ShearingandPunchingBISPLATE® 64
Drilling,Countersinking&TappingBISPLATE® 69
TurningandMillingBISPLATE® 76
BISPLATE®IdentificationMarkingandColourCoding 81
TestingandCertification 83
HardnessTestingBISPLATE® 85
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InTroduCTIon
BisalloySteelsPtyLtd,locatedatUnanderra,NSWisAustralia’sonlymanufacturerofhighstrength,wearresistantandarmourgradesteelplateproducedbythecontinuousrollerquenchingandtemperingprocess.
Quenchingandtempering,definedasacombinationofheatingandcoolingofametaloralloy,changesthemicrostructureofthesteelandimprovesthestrength,hardnessandtoughnessofthematerialsbeingtreated.
Utilisingthemostadvancedheattreatmenttechnology,furnacetemperaturesandquenchingratesarescientificallycontrolledusingPLC’stoobtaintheoptimumqualitygradesofsteelwithlowalloycontent.Theresultingproductsoflowalloyquenchedandtemperedsteelofferdesignersthestrengthtoweightadvantagesandwearresistantpropertiesnotavailableinconventionalsteels.
Highstrengthsteelhasastrengthtoweightratioofapproximatelythreetimesthatofmildsteel.Principalapplicationsareinminingequipment,transport,telescopiccranes,materialshandlingequipment,highriseconstructionandforestry.Highhardnessgradesofferimprovedwearlifemakingitidealforapplicationssuchaslinersforchutes,buckets,dumptrucksetc.BISPLATE®armourgradesaresuitableforarmouredpersonnelcarriersandballisticprotectionofmilitaryandcivilianfixedplantandtransportequipment.
BISPLATE®gradescanbereadilycut,welded,formedanddrilledusingsimilartechniquestomildsteel.
BisalloySteels®operatesanapprovedmechanicaltestinglaboratoryregisteredandmonitoredbytheAustralianNationalAssociationofTestingAuthorities(NATA).Thecompany’squalitycontrolandmanagementsystemisassessedbyLloydsandaccreditedtoISO9001.
Thecapacity,qualityandversatilityofourheattreatmentlineenablesustocompeteinbothdomesticandinternationalmarkets;includingNorthandSouthAmerica,Asia,NewZealandandAfrica.
®®
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How To ConTACT uS BISALLoy STEELS PTy LTd 18ResolutionDriveUnanderra POBox1246UnanderraNSW2526Australia TelSwitch+61242720444 Fax+61242720456 WebSitewww.bisalloy.com.au
SALES & MArkETIng MAnAgEr MichaelSampson Tel+61242720412 Mob0418603852 michael.sampson@bisalloy.com.au
TECHnICAL MAnAgEr Tel+61242720470 technical@bisalloy.com.au
ExPorT MAnAgEr WillyPang Tel+61242720418 Mob+61419280765 willy.pang@bisalloy.com.au
nATIonAL SALES MAnAgEr TerryMcDermott Tel+61242720432 Mob0406398421 terry.mcdermott@bisalloy.com.au
For STATE By STATE EnQuIrIES PLEASE ConTACT
our MAIn oFFICE on o2 4272 0444
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ProCESS rouTE
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rAngE oF grAdES
InTroduCTIon
BisalloySteels®gradesareworldclass,ourstructuralgradescomplyingwithmanyoftheworld’squenchedandtemperedsteelplatestandards.
Eachofthegradescoveredbythisbrochurehasspecificmechanicalandchemicalpropertiesdetailed.TheprocessinformationdetailedbelowisapplicabletoallBISPLATE®productmanufacturedbyBisalloySteels®.
BISALLoy’S FEEd PLATE
ThetechnologyusedinthemanufactureofBISPLATE®isnotonlyworldclass,butthedemandsofhighstrengthandhighhardnesssteelsdictatetheneedforoneofthemoststringentprocessroutesutilisedinthemanufactureofsteelplate,anywhereintheworld.
Hotmetaldesulphurisationensureslowlevelsofsulphurandotherimpuritiesinsteelmaking.VacuumdegassingiscarriedouttoreducetheHydrogencontentofthesteel,whilstalsodecreasingtheamountofundesirableOxygenandNitrogeninthesteel.ControlofimpuritiesisadditionallyassistedthroughtheuseofhotmetalinjectionandconditioningoftheslagduringtheBasicOxygenSteelmakingprocess.
ClosecontrolofchemicalcompositionandfinalmicrostructureismaintainedthroughtheuseofladlerefiningwithCalciuminjection,Argonbubblingthroughtheheatduringsteelmakingandalloyingadditionsmadeundervacuum.
Followingsteelmaking,integrityofslabproductisensuredbytheuseofelectromagneticstirring,continuouscastingandcontrolledcoolingofslabspriortoplaterolling.
Finally,platerollingiscarriedoutinacomputercontrolledfourhighrollingmill,inwhicheachdraftismodifiedduringrollingforoptimisationoffinalproperties.
Thenetresultissteelthatprovidesimprovedtoughness,structuralintegrityandfatigueresistance,providingconsistentproductperformanceinservice.
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BISALLoy’S HEAT TrEATMEnT
Plateisheatedinournaturalgasfiredfurnace,priortoquenchingintheDreverrollerquenchunit.CompletePLCcontrolallowstightandconsistentcontrolofallfurnaceandquenchoperations,includingwaterflowratesandpressure,furnacetemperaturesandresidencetimes.
Preandpost-heattreatmentshotblastingremovesscaleandpresentsanattractiveplate.Thisresultsinimprovementsinproductproperties,weldingandcutting,aswellassimplificationduringfabrication.
ThefinaloperationatBisalloyisplatelevelling,throughourplateleveller,formaterialupto32mmthick.Thishasresultedinsignificantimprovementsinflatnessofplatetomarket,muchtighterthantheAustralianStandardandotherInternationalStandards.
Ourqualityassurancesystemensuresthatfulltraceabilityexistsfrominitialsteelmakingrightthroughtheprocesstothefinalplate.Eachplateisindividuallyhardstampedwithauniqueidentification,thislinkstotheoveralltraceability.
Allplatesaretestedforhardness,whilstallstructuralgradesaretestedinBisalloy’sNATAapprovedmechanicaltestinglaboratory.Platesofallgradesarecertified.TheentireprocessiscarriedoutincompliancewithISO9001,certifiedbyLloyd’sRegisterQualityAssurance(LRQA).
BISALLoy’S TECHnICAL dEVELoPMEnT
EachofthegradesoutlinedinthisbrochurehavebeendevelopedtooptimisechemistryandmechanicalpropertiesinconjunctionwithBisalloy’sheattreatmentprocess.
Ourworldclasssteelgradesensurethatpropertiessuchasductility,weldabilityandtoughnessaremaximised,whilstcomplyingwiththerequisitehardnessandstrengthrequirements.
OngoingR&DatBisalloykeepsourproductrangeattheleadingedgeofavailablequenchedandtemperedsteels.Already,wearedevelopingsteelstomeettheemergingrequirementsforstillstrongerstructuralgradesandthesewillbereleasedtothemarketasdemanddictates.
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BISPLATE® 60
BISPLATE®60isalowcarbon,lowalloy,highstrengthstructuralsteelthatexhibitsexcellentcoldformabilityandlowtemperaturefracturetoughness.
APPLICATIonS
ThecombinationofBISPLATE®60mechanicalpropertiesandeaseoffabricationofferseconomicaladvantagesinmanystructuralapplications.Someexamplesofapplicationsforthisgradeinclude:
•Storagetanks (Water/Oil/Gas)•High-risebuildings (Columns/Transfer beams)•Liftingequipment (Mobile/Overhead cranes)
FABrICATIon
BISPLATE®60canbeweldedsuccessfullywithminimallevelsofpreheatandhasexcellentlowtemperaturefracturetoughness.
BISPLATE®60hasbeendesignedsuchthatalowhardnesslevelisproducedintheheataffectedzone(HAZ).Asaresult,thissteelhasalowsusceptibilitytoHAZcracking.
ForfurtherdetailsonfabricationpleaserefertoBisalloy’stechnicalliterature.
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BISPLATE® 60
MECHAnICAL ProPErTIES
PROPERTIES SPECIFICATION TYPICAL
0.2%ProofStress 500MPa(Min) 580MPa
TensileStrength 590-730MPa 640MPa
Elongationin50mmG.L. 20%(Min) 30%
CharpyImpact(Longitudinal)-20˚C(10mmx10mm)
80J(Min)* 200J
Hardness – 210HB
*Dependentonplatethickness
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Cr Mo B CE(IIW)* CET*
5-<16 Maximum 0.18 0.025 1.5 0.25 0.008 0.25 0.25 0.002 0.40 0.29
≥16-80 Maximum 0.20 0.025 1.5 0.25 0.008 0.30 0.25 0.002 0.50 0.35
>80-100 Maximum 0.18 0.025 1.5 0.25 0.008 1.20 0.25 0.002 0.58 0.34
*Typicalaverage
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BISPLATE® 70
BISPLATE®70isalowcarbon,lowalloy,highstrengthstructuralsteel.Thisgradecanbeweldedwithminimalpreheatandhasexcellentlowtemperaturefracturetoughnesssuitableforstructuralapplications.
APPLICATIonS
ThecombinationofBISPLATE®70mechanicalpropertiesandeaseoffabricationofferseconomicaladvantagesinmanystructuralapplications.Someexamplesofapplicationsforthisgradeinclude:
•Transportequipment (Trays/Low loaders/Outriggers)•Storagetanks (Water/Oil/Gas)•High-risebuildings (Columns/Transfer beams)•Liftingequipment (Mobile/Overhead cranes)•Miningequipment (Dump truck trays/Structural applications)•Longwallminingsupports
FABrICATIon
BISPLATE®70exhibitsexcellentcoldformabilityandlowtemperaturefracturetoughness.
BISPLATE®70hasbeendesignedsuchthatalowhardnesslevelisproducedintheheataffectedzone(HAZ).Asaresult,thissteelhasalowsusceptibilitytoHAZcracking.
ForfurtherdetailsonfabricationpleaserefertoBisalloy’stechnicalliterature.
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BISPLATE® 70
MECHAnICAL ProPErTIES
PROPERTIES SPECIFICATION TYPICAL
0.2%ProofStress 600MPa(Min) 670MPa
TensileStrength 690-830MPa 760MPa
Elongationin50mmG.L. 20%(Min) 28%
CharpyImpact(Longitudinal)-20˚C(10mmx10mm)
75J(Min)* 180J
Hardness – 230HB
*Dependentonplatethickness
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Cr Mo B CE(IIW)* CET*
5-<16 Maximum 0.18 0.025 1.5 0.25 0.008 0.25 0.25 0.002 0.40 0.29
≥16-80 Maximum 0.20 0.025 1.5 0.25 0.008 0.30 0.25 0.002 0.50 0.35
>80-100 Maximum 0.18 0.025 1.5 0.25 0.008 1.20 0.25 0.002 0.58 0.34
*Typicalaverage
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BISPLATE® 80
BISPLATE®80isahighstrength,lowalloysteelplatewithayieldstrengththreetimesthatofcarbonsteelandfeaturinglowcarbon,excellentnotchtoughness,goodweldabilityandformability.
APPLICATIonS
UtilisingthehighstrengthpropertiesofBISPLATE®80allowsreductioninsectionthicknesswithoutlossofstructuralintegrity.Thefollowinglistssomeapplicationswherethestrengthadvantagehasbeenrealised:
•Transportequipment (Low loaders)•High-risebuildings (Columns)•Miningequipment (Dump truck trays/Longwall roof supports)•Liftingequipment (Mobile cranes/Container handling equipment)•Bridges •Storagetanks •Excavatorbuckets•Induceddraftfans
FABrICATIon
BISPLATE®80isahighstrengthsteelmanufacturedwithacontrolledcarbonequivalentforoptimumweldability.
BISPLATE®80canbesuccessfullyweldedtoitselfandarangeofothersteels,providedlowhydrogenconsumablesareusedandattentionispaidtopreheat,interpasstemperature,heatinputandthedegreeofjointrestraint.Stressrelievingcanbeachievedat540°C–570°C.Heatingabovethistemperatureshouldbeavoidedtominimiseanyadverseeffectsonmechanicalproperties.Coldformingcanbesuccessfullyconducted,provideddueaccountistakenoftheincreasedstrengthofthesteel.
ForfurtherdetailsonfabricationpleaserefertoBisalloy’stechnicalliterature.
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BISPLATE® 80
MECHAnICAL ProPErTIES
PROPERTIES SPECIFICATION TYPICAL
0.2%ProofStress 690MPa(Min)* 750MPa
TensileStrength 790-930MPa* 830MPa
Elongationin50mmG.L. 18%(Min)* 26%
CharpyImpact(Longitudinal)-20˚C(10mmx10mm)
40J(Min)* 160J
Hardness – 255HB
*Dependentonplatethickness
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Cr Mo B CE(IIW)* CET*
5-<16 Maximum 0.18 0.025 1.5 0.25 0.008 0.25 0.25 0.002 0.40 0.29
≥16-80 Maximum 0.20 0.025 1.5 0.25 0.008 0.30 0.25 0.002 0.50 0.35
>80-100 Maximum 0.18 0.025 1.5 0.25 0.008 1.20 0.25 0.002 0.58 0.34
*Typicalaverage
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BISPLATE® 80PV
BISPLATE®80PVisahighstrengthsteelalternativefordesignersofunfiredpressurevesselsthatmeetstherequirementsofAS1210andachievesalightweightstructure.
APPLICATIonS
BISPLATE®80PVhasbeenapprovedbystatutoryauthoritiesandcomplieswiththerequirementsofAS1210forpressureapplicationsandissuppliedultrasonicallytestedtoAS1710-Level1.Itshighstrengthofferssubstantialweightreductionsinthefollowingareas:
•Transportableroadtankers•Storagetanks (Spherical and cylindrical)•Railroadtankers (LPG/Liquid ammonia)•Refineryandpetrochemicalequipment (Tube plates/Channel covers)
FABrICATIon
BISPLATE®80PVisahighstrength,lowalloypressurevesselsteelwithacontrolledcarbonequivalentforoptimumweldability.
BISPLATE®80PVcanbesuccessfullyweldedtoitselfandarangeofothersteels,providedlowhydrogenconsumablesareusedandattentionispaidtopreheat,interpasstemperature,heatinputandthedegreeofjointrestraint.Stressrelievingcanbeachievedat540˚C–570˚C.Heatingabovethistemperatureshouldbeavoidedtominimiseanyadverseeffectsonmechanicalproperties.Coldformingcanbeconductedsuccessfully,provideddueaccountistakenoftheincreasedstrengthofthesteel.
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BISPLATE® 80PV
MECHAnICAL ProPErTIES
PROPERTIES SPECIFICATION TYPICAL
0.2%ProofStress 690MPa(Min)* 750MPa
TensileStrength 790-930MPa* 830MPa
Elongationin50mmG.L. 18%(Min)* 26%
LateralExpansion 0.38mm(Min) 0.70mm
CharpyImpact – 55J
Hardness – 255HB
*Dependentonplatethickness
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Cr Mo B CE(IIW)* CET*
≥6-80 Maximum 0.20 0.025 1.5 0.25 0.008 0.30 0.25 0.002 0.50 0.35
>80-100 Maximum 0.18 0.025 1.5 0.25 0.008 1.20 0.25 0.002 0.58 0.34
*Lowheatinputbuttweldingrequiredtoensuretransverseweldtensilepropertiesareachieved.Alternatechemistrymaybespecifiedwhennecessary*Typicalaverage
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BISPLATE® 320
BISPLATE®320isathroughhardened,abrasionresistantsteelplate,offeringlonglifeexpectancyinhighimpactabrasionapplications.
APPLICATIonS
BISPLATE®320offerstheoptimumcombinationofhardness,impactandformabilityforwearapplicationsthatrequireextensiveforming/drillingorfabrication,inimpactabrasiveapplicationssuchas:
•Deflectorplates•Chutes•Storagebins•Dumptruckliners•Earthmovingbuckets
FABrICATIon
BISPLATE®320isahighhardness,abrasionresistantsteelwithacontrolledcarbonequivalentforoptimumweldability.Withappropriateattentiontoheatinput,preheatandconsumableselection,BISPLATE®320canbereadilyweldedtoitselfandothersteels,usingconventionalprocesses.
ColdformingofBISPLATE®320platesispossibleinallthicknesses,providedthehighstrengthofthissteelistakenintoaccount.Adequateallowancemustbemadeforincreasedspringbackrelativetomildsteel.Heatingabove400˚Cshouldbeavoided,otherwisethemechanicalpropertiesmightbeaffected.
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BISPLATE® 320
MECHAnICAL ProPErTIES
PROPERTIES SPECIFICATION TYPICAL
0.2%ProofStress – 970MPa
TensileStrength – 1070MPa
Elongationin50mmG.L. – 18%
CharpyImpact(Longitudinal)+20ºC(10mmx10mm)
– 60J
Hardness 320-360HB 340HB
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Cr Mo B CE(IIW)* CET*
5-<16 Maximum 0.18 0.025 1.5 0.25 0.008 0.25 0.25 0.002 0.40 0.29
≥16-80 Maximum 0.20 0.025 1.5 0.25 0.008 0.30 0.25 0.002 0.50 0.35
>80-100 Maximum 0.18 0.025 1.5 0.25 0.008 1.20 0.25 0.002 0.58 0.34
*Typicalaverage
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BISPLATE® 400
BISPLATE®400isathroughhardened,abrasionresistantsteelplate,offeringlonglifeexpectancyinhighimpactabrasionapplications.
APPLICATIonS
BISPLATE®400offersexcellentwearandabrasionresistanceandimpacttoughnessinapplicationsthatinclude:
•Dumptruckwearliners•Cyclones•Screwconveyors•Deflectorplates•Chutes•Groundengagingtools•Storagebins•Cuttingedges•Earthmovingbuckets
FABrICATIon
BISPLATE®400isahighhardness,abrasionresistantsteelofferingverygoodimpacttoughnessproperties.BISPLATE®400providesanoptimumcombinationofabrasionresistance,toughnessandweldability.Duetoitslowalloycontent,BISPLATE®400canbereadilyweldedusingconventionalweldingprocessesandlowhydrogenconsumables.ColdformingofBISPLATE®400isachievableonallthicknessesalthoughanallowanceforthehigherstrengthshouldbetakenintoaccount.Bendingmachinecapabilitiesshouldalsobetakenintoconsiderationpriortoanyformingoperation.Heatingabove250˚Cshouldbeavoided,otherwisemechanicalpropertiesmightbeaffected.
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BISPLATE® 400
MECHAnICAL ProPErTIES
PROPERTIES SPECIFICATION TYPICAL
0.2%ProofStress – 1070MPa
TensileStrength – 1320MPa
Elongationin50mmG.L. – 14%
CharpyImpact(Longitudinal)+20ºC(10mmx10mm)
– 55J
Hardness 370-430HB 400HB
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Cr Mo B CE(IIW)* CET*
5-<16 Maximum 0.18 0.025 1.5 0.25 0.008 0.25 0.25 0.002 0.40 0.29
≥16-80 Maximum 0.20 0.025 1.5 0.25 0.008 0.30 0.25 0.002 0.50 0.35
>80-100 Maximum 0.18 0.025 1.5 0.25 0.008 1.20 0.25 0.002 0.58 0.34
*Typicalaverage
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BISPLATE® 450
BISPLATE®450isathroughhardened,abrasionresistantsteelplate,withverygoodtoughness,weldabilityandformability,offeringlonglifeexpectancyinslidingandgougingabrasionapplications,withimpactloading.
APPLICATIonS
BISPLATE®450offersexceptionallylonglifeinhighabrasionapplicationswithimpactloading.Applicationsinclude:
•Dumptruckwearliners/bodies•Miningbuckets•Tipperbodies•Cuttingedges•Constructionwastebins•Linerplates/chutes
FABrICATIon
BISPLATE®450isalowcarbon,highhardness,abrasionresistantsteelwithguaranteedimpacttoughness.BISPLATE®450canbesuccessfullyweldedtoitselfandarangeofothersteelsbyconventionaltechniques.Becauseofitshighhardness,coldformingofBISPLATE®450requireshigherbendingandformingforcesandgreaterallowancesmustbemadeforspringback.Heatingabove200˚Cshouldbeavoided,otherwisemechanicalpropertiesmightbeaffected.
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BISPLATE® 450
MECHAnICAL ProPErTIES
PROPERTIES SPECIFICATION TYPICAL
0.2%ProofStress – 1150MPa
TensileStrength – 1400MPa
Elongationin50mmG.L. – 12%
Hardness 425-475HB 450HB
guArAnTEEd CHArPy-V IMPACT TougHnESS
THICKNESS(mm) TESTPIECE MIN.ENERGY,LONGITUDINAL@-40ºC
6-8 10x5 17J
10 10x7.5 21J
12-20 10x10 25J
>20-40 10x10 20J
>40-50 10x10 15J
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Ni Cr Mo B CE(IIW)* CET*
6-20 Maximum 0.23 0.025 1.00 0.60 0.008 0.25 1.00 0.25 0.002 0.46 0.30
25-50 Maximum 0.25 0.025 1.20 0.60 0.008 0.25 1.20 0.35 0.002 0.58 0.36
*Typicalaverage
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BISPLATE® 500
BISPLATE®500isathroughhardened,abrasionresistantsteelplate,offeringlonglifeexpectancyinslidingandgougingabrasionapplications.
APPLICATIonS
BISPLATE®500isthehardeststeelproducedbyBisalloySteels®andoffersexceptionallylonglifeinslidingabrasionapplicationssuchas:
•Dumptruckwearliners•Chutes•Wearliners•Earthmovingbuckets•Cuttingedges•Groundengagingtools
FABrICATIon
BISPLATE®500isamediumcarbon,highhardness,abrasionresistantsteel.Withappropriateattentiontoheatinput,preheatandconsumableselections,BISPLATE®500canbesuccessfullyweldedtoitselfandarangeofothersteelsbyconventionaltechniques.Becauseofitshighhardness,coldformingofBISPLATE®500isdifficult,requiringhigherbendingandformingforces,andgreaterallowancesmustbemadeforspringback.Ifheatingisnecessary,thisshouldnotexceed200˚C,otherwisemechanicalpropertiesmightbeaffected.
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BISPLATE® 500
MECHAnICAL ProPErTIES
PROPERTIES SPECIFICATION TYPICAL
0.2%ProofStress – 1400MPa
TensileStrength – 1640MPa
Elongationin50mmG.L. – 10%
CharpyImpact(Longitudinal)+20ºC(10mmx10mm)
– 35J
Hardness 477-534HB 500HB
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Ni Cr Mo B CE(IIW)* CET*
8-100 Maximum 0.32 0.025 0.40 0.35 0.008 0.35 1.20 0.30 0.002 0.62 0.40
*Typicalaverage
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BISPLATE® HIgH HArdnESS ArMour PLATE
InTroduCTIon
BISPLATE®HighHardnessArmour(BISPLATE®HHA)isaquenchedandtemperedsteelarmourplatesuitableforuseinbothmilitaryandcivilapplicationswherelightweightandresistancetoballisticprojectilesisrequired.
METHod oF MAnuFACTurE
BISPLATE®HHAisahotrolledsteelproductthatissubsequentlyheattreatedtopromoteitshighstrengthandtoughness,highhardnessandballisticsproperties.
BrInELL HArdnESS
THICKNESS(mm) SPECIFICATION TYPICAL
5-50* 477-534HB 500HB
*Otherthicknessesmaybeavailableonrequest
TEnSILE ProPErTIES
PROPERTY TYPICAL
0.2%ProofStress 1350MPa
TensileStrength 1640MPa
Elongationin50mmG.L. 14%
CHArPy IMPACT VALuES
THICKNESS(mm) TESTPIECE TESTTEMP MIN.ENERGY(TRANSVERSE) MIN.ENERGY(LONGITUDINAL)
5 10xThk -40ºC ByAgreement ByAgreement
6-<9.5 10x5 -40ºC 8J 10J
9.5-<12 10x7.5 -40ºC 12J 15J
≥12 10x10 -40ºC 16J 20J
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BISPLATE® HIgH HArdnESS ArMour PLATE
MECHAnICAL TEST FrEQuEnCIES
TEST FREQUENCY
Hardness PerPlate
Charpy(L) PerBatch
Charpy(T) PerBatch
TensileTesting ByAgreement
ThicknessTesting PerPlate
BallisticTesting ByAgreement
CHEMISTry
ThechemicalspecificationconformswiththerequirementsofMIL-DTL-46100,althoughitistighterthantherequirementsofthatspecificationsoastooptimisethematerial’sperformance.Productchemicalanalysesaretakenonaper-heatbasis
Chemicalanalysisisasfollows:
CHEMICAL CoMPoSITIon
THICKNESS(mm) C P Mn Si S Ni Cr Mo B CE(IIW)** CET**
5-501 Maximum 0.32 0.025 0.80 0.50 0.005 0.50 1.20 0.30 0.002 0.61 0.40
**Note:NickelandVanadiumareintentionallyadded**Typicalaverage1Otherthicknessesmaybeavailableonrequest
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BALLISTIC ProPErTIES
AS 2343 PArT 2 BuLLET rESISTAnT PAnELS For InTErIor: oPAQuE PAnELS
CLASS CALIBRE AMMUNITIONMEASUREDVELOCITY@DISTANCEFROM
MUZZLERANGE
MINIMUMREQUIREDHHATHICKNESS
G2 44Magnum15.6gLeadSemi-Wad
CutterBullet488±10m/s@1.5m 3m 6mm2
S0 12Gauge(FullChoke)12Gauge70mmHigh
VelocityMagnum32gSGShot
403±10m/s@1.5m 3m 6mm2
S1 12Gauge(FullChoke)12Gauge70mm24.8gSingleSlug
477±10m/s@1.5m 3m 6mm2
R1 5.56mmM1935.56mm3.6gFullMetalCaseBullet
980±15m/s@5m 10m 10mm2
R2 7.62mmNatoStandard7.62mm9.3g
FullMetalCaseBullet853±10m/s@5m 10m 6mm
2Standardthicknessesproduced.Minimumthicknessrequiredislessthanstatedthickness.PleasecontactBisalloyforfurtherinformation.
ClassG–HandGun ClassS–Shotgun ClassR–Rifles
rESIduAL MAgnETISM
MaximumresidualmagnetismofBISPLATE®armourgradesis50Gausswhenplatesaredespatched.Specialarrangementcanbemadetolimitthemaximumresidualmagnetismto20Gauss.
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grAdE EQuIVALEnTS
GRADE COUNTRYOFORIGIN STEELSTANDARD COMMENTS
60 Australia AS3597Grade500 Min.yield500MPa
60 ISO ISO4950-3AMD1 Min.yield500MPa
60 Japan JISG3106SM570 Min.yield420MPa
60 USA ASTMA572/A537MGrade60 Min.yield415MPa
60 USA ASTMA537/A537M Min.yield485MPa
60 Europe EN10025S460 Min.yield460MPa
70 Australia AS3597Grade600 Min.yield600MPa
70 ISO ISO4950-3AMD1 Min.yield620MPa
70 USA ASTMA533/A533MCI.1 Min.yield550MPa
70 Europe EN10025S600 Min.yield620MPa
80 Australia AS3597Grade700 Min.yield690MPa
80 ISO ISO4950-3AMD1 Min.yield690MPa
80 USA ASTMA514/A514M Min.yield690MPa
80 Europe EN10025S690 Min.yield690MPa
80 Japan JISG3128 Min.yield685MPa
80PV Australia AS3597Grade700PV Min.yield690MPa
80PV USA ASTMA577/A517M Min.yield690MPa
80PV Europe EN10028P690 Min.yield690MPa
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ra
de
s
28
SuMMAry TABLES STruCTurAL STEEL grAdES
STEELGRADE
PLATETHICKNESS
(mm)
CARBONEQUIVALENT
(IIW)
BRINELLHARDNESS(HB3000/10)
MECHANICALPROPERTIES
TENSILE CHARPYV-NOTCHIMPACT
PLATETHICKNESS
(mm)
0.2%PROOFSTRESS(MPa)Min
TENSILESTRENGTH
(MPa)
%ELONGATION(50mmG.L)
Min
PLATETHICKNESS
(mm)
ENERGY(J)(Min)
TESTTEMP.(ºC)
TESTDIRECTIONS
BISPLATE®60
(AS3597Grade500)
5-<16
≥16-80
>80-100
0.40
0.50
0.58
210 5-100 500 590-730 20
5 ByAgmnt -20 L
6-9.5 45 -20 L
9.5-12 60 -20 L
13-100 80 -20 L
BISPLATE®70
(AS3597Grade600)
5-<16
≥16-80
>80-100
0.40
0.50
0.58
230 5-100 600 690-830 20
5 ByAgmnt -20 L
6-9.5 40 -20 L
9.5-12 60 -20 L
13-100 75 -20 L
BISPLATE®80
(AS3597Grade700)
5-<16
≥16-80
>80-100
0.40
0.50
0.58
255
5
6-65
70-100
650
690
620
750-900
790-930
720-900
18
18
16
5 ByAgmnt -20 L
6-9.5 20 -20 L
9.5-12 30 -20 L
13-100 40 -20 L
BISPLATE®80PV
(AS3597Grade700PV)
≥6-80 0.50
2556-65
70-100
690
620
790-930
720-900
18
166-100
LateralExpansion0.38mmmin.
ByAgmntmax.0ºC
T
>80-100 0.58
29
SuMMAry TABLES HIgH HArdnESS STEEL grAdES
STEELGRADEPLATETHICKNESS
(mm)CARBON
EQUIVALENT(IIW)
BRINELLHARDNESS(HB3000/10)
MECHANICALPROPERTIES
TENSILE CHARPYV-NOTCHIMPACT
0.2%PROOFSTRESS(MPa)
TENSILESTRENGTH
(MPa)
%ELONGATION(50mmG.L.)
ENERGY(J)*TESTTEMP.
(ºC)TEST
DIRECTIONS
BISPLATE®320
5-<16 0.40
320-360 970 1070 18 60 +20 L≥16-80 0.50
>80-100 0.58
BISPLATE®400
5-<16 0.40
370-430 1070 1320 14 55 +20 L≥16-80 0.50
>80-100 0.58
BISPLATE®450
6-20 0.46
425-475 1150 1400 12
25
-40 L25-400.58
20
>40-50 15
BISPLATE®500 6-100 0.62 477-534 1400 1640 10 35 +20 L
*Note:Charpyenergyvaluesarefor10x10mmspecimensizes
Legend:L LongitudinalT Transverse GuaranteedValues TypicalAverageValues(providedforreferenceinformationonly)
IIWCarbonEquivalentFormula:C.E.=C+Mn+Cr+Mo+V+Ni+Cu C.E.T=C+(Mn+Mo)+(Cr+Cu)+Ni 6515 10 2040
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30
BISPLATE® SIzE rAngE
STAndArd SIzE SCHEduLE
Table1:
PLATEMASSINTONNES
GRADE BISPLATE®60,70,80,320,400 BISPLATE®450 BISPLATE®500
WIDTH(mm) 1525 1900 2485 1525 2485 3100 2485 3100 1525 1900 2485 2485
LENGTH(m) 6000 6000 6000 8000 8000 8000 8000*8500
8000*8300**8800
6000 6000 6000 8000
Thickness(mm)
5 0.479
6 0.575 0.936 0.936
8 1.248 1.248 1.248
10 1.561 1.947 1.561 1.947 1.561
12 1.873 2.336 1.873 2.336 1.873
16 2.497 3.115 2.497 3.115 2.497
20 3.121 3.894 3.121 *4.040 3.121
25 3.901 4.867 3.901 **5.354 3.901
32 4.994 *5.306 4.994
40 6.242 6.242 6.242
50 7.803 7.803 7.803
60 7.023 7.023
70 6.264 6.264
75 6.712 5.387
80 7.159 5.746
90 6.464 6.464
100 7.183 7.183
Platemass(tonnes)calculation=7.85xWxTxL(m)
non STAndArd SIzES
• Available subject to sales enquiry• Minimum order quantities may apply
EdgE CondITIon
• All plate 1525 mm wide and 5 & 6 mm thick is supplied with untrimmed edge
• All other plate is supplied with trimmed edge
31
MAnuFACTurIng ToLErAnCES THICknESS ToLErAnCE
Table1:
WIDTH
THICKNESS(+/-mm)
≤6>6≤8
>8≤10
>10≤13
>13≤18
>18≤22
>22≤30
>30≤42
>42≤63
>63
<1600 0.53 0.60 0.60 0.68 0.83 0.90 1.05 1.28 1.73 2.55
≥1600 <2100 0.60 0.68 0.68 0.75 0.90 0.98 1.13 1.35 1.80 2.63
≥2100 <2700 0.75 0.75 0.83 0.90 0.98 1.125 1.28 1.50 1.95 –
≥2700 – 0.98 1.05 1.13 1.20 1.35 1.43 – – –
Notes:1.Measurementcanbeconductedanywhereonplate 2.Alldimensionsareinmillimetres
wIdTH ToLErAnCE TrIMMEd EdgE PLATE
Table2:
THICKNESS <16 ≥16<50 ≥50
WIDTH PLUS MINUS PLUS MINUS PLUS MINUS
<1520 20 0 25 0 25 0
≥1520 20 0 30 0 30 0
Note:Alldimensionsareinmillimetres
siz
e r
an
ge
M
an
ufa
ct
ur
ing
to
ler
an
ce
s
32
unTrIMMEd EdgE PLATE
Table3:
WIDTH(ALLTHICKNESS) PLUS MINUS
≤1500 40 0
Note:Alldimensionsareinmillimetres
LEngTH ToLErAnCE
Table4:
ALLTHICKNESS <25 ≥25
LENGTH PLUS MINUS PLUS MINUS
<6000 25 0 30 0
≥6000<12000 30 0 40 0
≥12000 50 0 65 0
Note:Alldimensionsareinmillimetres
33
CAMBEr EdgE CAMBEr ToLErAnCE
Table5:
SPECIFIEDWIDTH TRIMMEDEDGE UNTRIMMEDEDGE
ALL 4 6
Note:Alldimensionsareinmillimetres
Figure1:
Note:Alldimensionsareinmillimetres
EdgeCambershallbelimitedsothatitshallbepossibletoinscribethedimensionsoftheorderedplatewithinthedeliveredsize.
Measurementofflatnesstoleranceshouldbemadewhentheproduct,restingunderitsownmass,isplacedonaflathorizontalsurface.
Astraightedgeshallbeplacedontheplateandthemaximumverticaldistancefromtheplateshallbemeasured(H).
Figure2a: MeasurementofFlatness-Waviness
Figure2b:MeasurementofFlatness-Bowing
W = Width L = Length C = Edge Camber
L = Length H = Deviation
W = Width L = Length H = Deviation
Ma
nu
fac
tu
rin
g t
ole
ra
nc
es
34
BISALLoy MAnuFACTurIng ToLErAnCES
Table6:
SPECIFIEDTHICKNESSPLATE
(mm)
DISTANCEBETWEENPOINTSOFCONTACT
(mm)
SPECIFIEDWIDTHOFPLATE(mm)
<1500 ≥1500<1800 ≥1800<2400 ≥2400<3000 ≥3000
≤61000 8 8 8 10 15
2000 15 15 15 25 30
>8≤121000 6 6 8 10 15
2000 10 10 15 20 25
>12≤251000 6 6 6 10 10
2000 8 10 12 16 16
>251000 6 6 6 6 6
2000 8 8 10 10 10
Notes: 1.Thetolerancesapplywhenmeasuredatleast20mmfromthelongitudinaledgesand100mmfromthetransverseedges2.Wherethedistancebetweenthepointsofcontactisbetween500mmand1000mm,thepermissibledeviationisobtained
asfollows:DISTANCEBETWEENPOINTSOFCONTACTxH 1000WhereH=allowabledeviationfor1000mmNote:ThistableisanextractoftheAS1365(table3.4)HoweverBisalloyinternalmanufacturingtolerancesareconsiderablymorerestrictive
3.Alldimensionsareinmillimetres
35
CuTTIng BISPLATE®
FLAME CuTTIng, PLASMA CuTTIng, LASEr CuTTIng, wATErJET CuTTIng And SAwIng rECoMMEndATIonS
AllgradesofBISPLATE®quenchedandtemperedsteelcanbecutbyeitherthermalcutting,lasercutting,waterjetcuttingorpowersawoperations.Thecuttingoperationscanbecarriedouteitherintheworkshopor,inthecaseofflamecutting,infieldconditions.Boththehighstrengthstructuralgradesandthewearandabrasionresistantgradescanbecutusingthesametypeofequipmentemployedincuttingplaincarbonsteels.
Figure1a:
cu
tt
ing
Bis
Pla
te
®
LaserCut-Top
PlasmaCut-Top
FlameCut-Top
FlameCut-Bottom
Effects of flame, plasma and laser cutting on plate hardness for a 6 mm AS3597 Grade 700 steel (BiSPLATE® 80). Hardness tests were conducted using the Vickers method and converted to Brinell hardness values (HB).
Distance from Cut Edge (mm)
0 1 2 3 4 5 6 7
450
400
350
300
250
200
150
Har
dne
ss (B
rinel
l)
36
10
Laser Cut
Plasma Cut
Flame Cut550
500
450
400
350
300
250
Har
dne
ss (B
rinel
l)
0 1 2 3 4 5
Distance from Cut Edge (mm)
CuTTIng oPErATIonS
Dependentonthegradeandthicknessbeingcut,thefollowingoperationscanbeusedonBISPLATE®grades:
•FlameCutting(Oxy-LPG and Oxy-acetylene) •PlasmaCutting•LaserCutting•WaterjetCutting•PowerSawing
Figure1b:
Effects of flame, plasma and laser cutting on plate hardness for a 6 mm BiSPLATE® 500. Hardness tests were conducted using the Vickers method and converted to Brinell hardness values (HB).
Note: Some variations to the hardness profiles of figure: 1a and 1b will occur with changes to cutting speed and plate thickness.
37
FLAME CuTTIng
BothOxy-LPGandOxy-acetyleneprocessesareacceptableforsectioningallthicknessesofBISPLATE®.Withtheseprocesses,thefollowingtechniquesarerecommended:
•Gaspressuretobethesameasforcuttingtheequivalentthicknessinplaincarbonsteel•Reducetravelspeedsby30%whencomparedtotheequivalentthicknessplaincarbonsteelswhenusingastandardcuttingnozzle
•Nozzlesizetobethesameasforequivalentthicknessplaincarbonsteel•Correctselectionofnozzlesizefortheplatethicknessbeingcutisimportanttoensureefficientcuttingandtominimisethewidthoftheheataffectedzone(HAZ)
Aswithallplatesteels,thesmoothnessofthecutisaffectedbysurfacescale.Ifthisispresent,itisadvisabletoremoveitpriortocutting(BISPLATE®isnormallysuppliedintheshotblastedcondition).
UndernormalOxycuttingconditions,thetotalheataffectedzoneadjacenttotheflamecutedgewillextendintotheplateapproximately2-3mm,asshowninfigure1aforBISPLATE®80.Itshouldbenotedthattheheataffectedzoneproducesa‘hard’layeradjacenttotheflamecutedge,witha‘soft’layerinsidethis.Theoriginalplatehardnessreturnsafterthe2-3mmdistancefromthecutedge.ForBISPLATE®500theHAZmayextendasmuchas4-5mmintotheplateasshowninfigure1b.
PreheatingBISPLATE®steelpriortoflamecuttingwillminimisethehardnessoftheflamecutedgeandalsoreducetheriskofdelayedcrackingfromthiscutedge.Thisisparticularlyimportantincoldenvironmentswhereplatetemperatureislessthan20°CandforthehighhardenabilitygradesofBISPLATE®500.
cu
tt
ing
Bis
Pla
te
®
38
Table1below,givesguidanceonthepreheatrequirements.Itisrecommendedthatthezonetobepreheatedshouldextendatleast75mmeithersideofthelineofcut,withthetemperaturebeingmeasuredontheoppositesurfaceandatadistanceof75mm,asshowninfigure2.
rECoMMEndEd MInIMuM PrEHEAT TEMPErATurES For FLAME CuTTIng oF BISPLATE® grAdES
Table1:
BISPLATE®GRADE PLATETHICKNESS(mm) MINIMUMPREHEATTEMPERATURE(ºC)
60,70 8-32 20
80,80PV5-3132-100
2050
320,4005-3132-100
2050
4506-2021-50
2050
5008-2021-100
50100
39
Figure2:Recommendedpreheatzoneandlocationofpreheatmeasurement.
Iftheflamecutsurfaceistobethefaceofaweldedjoint,theheataffectedzonefromtheflamecuttingneednotberemoved.However,allslagandloosescaleshouldberemovedbylightgrinding,andpriortowelding,thecutsurfaceshouldbedryandfreefromorganicmattersuchasoil,grease,etc(asdirectedbygoodworkshoppractice).
Whenstrippingplates,theuseofmultiplecuttingheadswillhelptominimisedistortionofthecutpieces.Correctnozzlesize,gaspressureandtravelspeedwillalsominimisedistortionduringcutting.Softeningonedgescanalsooccurwhenflamecuttingsmallstrips,eg.50mmwidex50mmthickplate.
QuenchcuttingofBISPLATE®gradestominimisedistortionisnotrecommended,coolinginstillairispreferred.Thetechniqueofstackingplatesduringprofilecuttingshouldalsobeavoided.
Forcomponentcuttingand/orprofilingofsmallpartsanincreaseintemperaturecanoccurandmayaffectthemechanicalpropertiesofthesteel.
Measure preheat temperature here
75 mm 75 mm
cu
tt
ing
Bis
Pla
te
®
40
SuMMAry oF FLAME CuTTIng rECoMMEndATIonS
•Foroxyprocessesusegaspressuresandnozzlesizesasforanequivalentthicknessofplaincarbonsteel•Foroxyprocessesusecuttingspeedstwothirdsofthatrecommendedforanequivalentthicknessofplaincarbonsteel•Flamecuttingproducesaheataffectedzoneonallgrades.TheriskofdelayedcrackingisreducedbyusingpreheatespeciallyforthickplateandforBISPLATE®500grade
•Usemultiplecuttingheadswhenstrippingplates•Stillaircoolingaftercutting•Donotstackcut•Donotquenchcutplates•Usethermalcrayonsorsurfacethermometerstomeasurepreheattemperatures
rEFErEnCES/FurTHEr rEAdIng
WTIATechnicalNote5“FlameCuttingofSteels.”
PLASMA CuTTIng
PlasmacuttingisanacceptablemethodofsectioningallgradesofBISPLATE®.Theprocessoffersparticularadvantagesofproductivityoverflamecuttinginthicknessesupto20mmusingcurrentlyavailableequipment.Forinstance,thecuttingspeedof6mmBISPLATE®400maybeupto9timesthatrecommendedforconventionalflamecuttingtechniques.
Thecutqualitymaybeinferior,however,duetoroundingofthetopedgesanddifficultyinobtainingasquarecutfaceofbothedges.Guidanceontheoptimumsettingsfornozzlesize,gaspressure,gascompositionandcuttingspeedswillbeprovidedbytheequipmentmanufacturer.BISPLATE®withlowalloycontentsshouldbetreatedsimilarlytoconventionalstructuralsteels.
Theheataffectedzonefromaplasmacutisnarrowerthanthatproducedfromflamecuttingbutpeakhardnessesaregenerallyhigher.Generalrecommendationsfortheremovalofthishardenedzoneareoutlinedbelow.
41
HArdnESS ProFILE CHArACTErISTICS For PLASMA CuTTIng
Table2:
PLATETHICKNESS(mm)RECOMMENDEDDEPTHOF
REMOVAL(mm)PEAKHARDNESS(HB)
BISPLATE®
60,70,80,320,400BISPLATE®
450BISPLATE®
500
5-8 0.4-0.5 430 480 540
>8-12 0.6-0.8 450 480 540
>12-20 1.0-1.2 450 480 540
TheplasmacutHAZtypicallyextends0.5–1.0mmintotheplateundernormalconditions.Asisthecaseforflamecutting,completeremovalbygrindingisrecommendedifcoldformingofthecutplateiscontemplated.
Allothercommentsforflamecuttingregardingpreheating,removaloftheHAZ,strippingandstackcuttingofplateswouldapplytoplasmacutting.
cu
tt
ing
Bis
Pla
te
®
42
LASEr CuTTIng
LasercuttingisaproductivemethodforsectioningallgradesofBISPLATE®upto12mmthickness,particularlywherehighlevelsofaccuracyandminimaldistortionisrequired.Currently,withthicknessesabove12mm,productivitylevelsdropwhencomparedwithotherprocesses.
Thelasercuttingprocessisunlikeotherthermalcuttinginsofarasthematerialisessentiallyvapourisedfromthekerfratherthanmeltingandremovalbykineticenergy.
Thelaserconcentratesitsenergyintoafocusedbeamresultinginlowlevelsofexcessheat.ThisresultsinverysmallHAZareas(0.05–0.15mm)andsmallkerfs(0.3mm).
CoMPArISon oF FLAME, PLASMA And LASEr CuTTIng on 6 MM BISPLATE® 400
Table3:
PROCESS KERFWIDTH(mm) HAZWIDTH(mm)
FlameCutting 0.9 1.5
PlasmaCutting 3.2 0.5
LaserCutting 0.3 0.2
Cuttingspeedsaretypically5000mm/minandtheedgeisgenerallysquare,burrfreeandminimaldross.
Peakhardnesslevelsarelowerthanthoseobtainedfromalternatecuttingmethodspreviouslydescribed.RemovaloftheHAZisgenerallynotconsiderednecessaryformostapplications,however,forformingoperationsitisadvisedthatBisalloySteels®arecontactedforguidance.
43
PowEr SAwIng
AllBISPLATE®gradescanbecutwithpowersaws,providedlowerbladespeedsandbladepressuresupto50%higherthanthoseusedforcuttingplaincarbonsteelareused.Bestresultshavebeenachievedusingpowersawbladesnormallyrecommendedforcuttingstainlesssteel(generally,bladeshaving4-6teethper25mm).Sawingdirectlyontoaflamecutsurfaceshouldbeavoidedwherepossible.
cu
tt
ing
Bis
Pla
te
®
44
wATErJET CuTTIng
WaterjetcuttingcanbeperformedonallgradesofBISPLATE®,althoughitswidespreaduseislimitedduetothecurrentmachinesavailableinAustraliaandtheirlowcuttingspeeds.
AkeyadvantageofwaterjetcuttingisthatitleavesthesurfacefreeofHAZ.Cuttingwithoutheatprotectsagainstmetallurgicalchangesintheplate,ensuringoriginalplatemechanicalpropertiesaremaintained.
RecenttestsperformedbytheCSIRODivisionofManufacturingTechnologyonwaterjetcutting8mmBISPLATE®500at40mm/minresultinginnearperfectcutedges.Speedsto75mm/minarepossiblebutwithreducedsmoothnessofthecutedge.
Thewaterjetcutshowsnochangeinmaterialstructureattheedgeofthecut.Thelasercutedgeshowsadistinctchangeinstructuretoadepthof0.2mm.
Bothlasercuttingandwaterjetcuttingareindustrialprocesseswhichshouldbeconsideredbystructuraldesignersandfabricatorsasalternatemeanstoavoidingproblemsassociatedwithfitup,cutedgesquareness,shapeprecision,drossandgrossHAZ’swhichcanoccurwithconventionalthermalcuttingprocesses.
BisalloySteels®wishtothanktheAustralianWeldingjournal,CSIRO-DMT,IanHenderson,CRCforMaterialsWeldingandjoiningandRoryThompson,CSIROIndustryLiasionManagerforinformationpertainingtolaserandwaterjetcuttingcontainedinthispublication.
45
wELdIng oF BISPLATE® QuEnCHEd And TEMPErEd STEELS
gEnErAL InForMATIon
AllgradesofBISPLATE®canbereadilyweldedusinganyoftheconventionallowhydrogenweldingprocesses.
Theirlowcarboncontentandcarefullybalanced,butrelativelysmalladditionsofalloyingelements(Mn,Cr,Mo,Ni,B)ensuresgoodweldability,inadditiontotheadvantagesofhighstrength,impacttoughnessandhighhardness.
HydrogEn ConTroL
ToensureadequateweldingofBISPLATE®,itisnecessarytobemoremindfulofthelevelsofhydrogen,preheattemperaturesandarcenergyinputsinordertominimisethehardeningandmaintainthepropertiesoftheweldHeatAffectedZone(HAZ).
ParticularattentionmustbepaidtothecontrolofhydrogencontenttominimisetheriskofweldandHAZcracking.
Weldhydrogencontentisminimisedbycarefulattentiontothecleanlinessanddrynessofthejointpreparationsandtheuseofhydrogencontrolledweldingconsumables.
Recommendationsonthecorrectstorageandhandlingofconsumablesmaybeobtainedfromweldingconsumablemanufacturers,forinstancetheuseof“HotBoxes”forstorageandreconditioningarerequiredwhenusingmanualmetalarcweldingelectrodes.ReferWTIATechNote3forfurtherguidance.
HEAT AFFECTEd zonE ProPErTy ConTroL
TheHAZ,aregiondirectlyadjacenttotheweld,experiencesathermalcyclerangingfromunaffectedparentplatetonearmeltingatthefusionboundary.
Thepropertiesofthiszonearedeterminedbythesteelcompositionaswellasthecoolingrate.
46
STEEL CoMPoSITIon
BISPLATE®gradesandchemicalcompositionsmaybedividedintocategoriesbasedonCarbonEquivalentandCETasfollows:
Table1:
BISPLATE®GRADE PLATETHICKNESS(mm)CARBONEQUIVALENT(IIW)
TYPICALAVERAGECET
TYPICALAVERAGE
60,70,80,320,400 5-12 0.40 0.29
60,70,80,320,400 13-80 0.50 0.35
60,70,80,320,400 81-100 0.58 0.34
4506-2025-50
0.460.58
0.300.36
500 8-100 0.62 0.42
Notes:1. C.E.(IIW)=C+Mn+Cr+Mo+V+Cu+Ni 6 5152. CET=C+Mn+Mo+Cr+Cu+Ni 10 2040 Thesecategoriesgiveanindicationofthedegreeofcarerequiredintheproperselectionofweldingpreheat/heatinputs.
47
CooLIng rATE
LimitationsonbothpreheatandheatinputarenecessarytoensurethattheHAZcoolsatanappropriaterateandthatthecorrecthardnessandmicrostructureareachieved.TooslowacoolingratecanresultinasoftHAZandthusalossoftensileandfracturetoughnessproperties.ToorapidacoolingrateproducesahardHAZwhichmaycauselossofductility.Coolingiscontrolledbyabalancebetweenpreheatandheatinputforaparticularplatethicknessandjointconfiguration.
PrEHEAT/HEAT InPuT
Thepreheat/heatinputrecommendationsoutlinedintables2and3willensurethatthecoolingrateoftheHAZissatisfactory.
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ldin
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e®
48
rECoMMEndEd PrEHEAT/InTErPASS TEMPErATurES (°C) For BISPLATE®
Table2:
BISPLATE®GRADEJOINTCOMBINEDTHICKNESS(t1+t2+t3)(mm)
<30 ≥30≤40 >40<50 ≥50<100 ≥100
MinimumPreheatTemp°C
HighStrengthStructuralGrades
60(AS3597Grade500) Nil* 50 50 75 140
70(AS3597Grade600) Nil* 50 50 75 140
80(AS3597Grade700) Nil* 50 50 75 140
MinimumPreheatTemp°C
AbrasionResistantGrades
320 Nil* 75 75 125 150
400 Nil* 75 75 125 150
450 Nil* Nil* 100 125*** **
500 100 150 150 150 **
MaximumInterpassTempºC
80-450Grades 150 150 175 200 220
500Grade 150 175 175 200 220
*Chillmustberemovedfromplatespriortowelding**RefertoBisalloySteels®foravailability,preheat/interpassrequirements
***Areduced100ºCminpreheatcanbeusedforproduct≥50–60JCTNotethatunderrigidweldjointrestraintorhighambienthumidityconditions preheatingtemperatureshouldbeincreasedby25ºC
49
PErMISSIBLE HEAT InPuT (kJ/MM) For BISPLATE®
Table3:
WELDINGPROCESSJOINTCOMBINEDTHICKNESS(t1+t2+t3)(mm)
≤40 >40≤60 >60≤100 >100
MMAW 1.25-2.5 1.25-3.5 1.5-4.5 1.5-5.0
GMAW 1.0-2.5 1.0-3.5 1.5-4.5 1.5-5.0
FCAW 0.8-2.5 0.8-3.5 1.5-4.5 1.5-5.0
SAW 1.0-2.5 1.0-3.5 1.5-4.5 1.5-5.0
Heatinput(kJ/mm)=VoltsxAmpsx0.06 TravelSpeed(mm/minute)
Note:Forthicknessesupto12mminstructuralgrades,themaximumarcenergymayneedtobelimitedto1.5KJ/mmmaximuminspecificapplications
we
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e®
50
wELdIng BISPLATE®
wELdIng ConSuMABLE SELECTIon guIdE For BISPLATE® (AS CLASSIFICATIonS)
Table4a:
BISPLATE®60
BISPLATE®
70BISPLATE®
80BISPLATE®
320,400,450,500
MMAWConsumables*
Warning:OnlyuseHydrogenControlledconsumables
StrengthLevel Matching E55XX/E62XX+ E69XX~ E76XX N.R.Lower E49XX E55XX E55XX/E62XX+ E55XXLower E49XX E49XX E49XX E49XX
Hardness Matching N.R. N.R. N.R. 1430-AX,1855-AX^
GMAWConsumables**StrengthLevel Matching W55XX/W62XX+ W69XX+ W76XX N.R.
Lower W50XX W55XX W62XX/W69XX W55XXLower W50XX W50XX W55XX.X W50XX
Hardness Matching N.R. N.R. N.R. 1855-BX^
FCAWConsumables***StrengthLevel Matching BT55X/BT62X+ BT69X~ BT76X N.R.
Lower BT49X BT62X BT62X BT55XLower BT49X BT55X BT55X BT49X
Hardness Matching N.R. N.R. N.R. 1430-BX,1855-BX,1860-BX^
SAWConsumables****StrengthLevel Matching W55XX/W62XX+ W69XX~ W76XX N.R.
Lower W50XX W50XX W50XX W50XXLower W40XX W40XX W40XX W40XX
Hardness Matching N.R. N.R. N.R. 1855-BX^
Table4acourtesyofWTIA(TechNote15)
51
Notes:* MMAW-AS/NZS4855consumableclassification** GMAW-AS2717.1consumableclassification*** FCAW-AS/NZS17632andAS/NZS18276consumableclassification**** SAW-AS1858.1andAS1858.2consumableclassificationX AVariable-anyvalueallowedbytherelevantstandardmaybeacceptableprovidedthattheconsumableishydrogen
controlled(ielowhydrogen)+ E62XXandW62XXtypeconsumablesovermatchthestrengthrequirementsbutmaybeused~ TheseConsumablesmaybedifficulttoobtain.InsomecasesE62XX,W62XXorBT62Xconsumablesmaybe
substituted,otherwiseuseE76XX,W76XXorBT76Xtypes^ AS2576andWTIATN4ClassificationsN.R.NotRecommended
we
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e®
52
wELdIng ConSuMABLE SELECTIon guIdE For BISPLATE® (AwS CLASSIFICATIonS)
Table4b:
BISPLATE®60
BISPLATE®
70BISPLATE®
80BISPLATE®
320,400,450,500
MMAWConsumables*
Warning:OnlyuseHydrogenControlledconsumables
StrengthLevel Matching E80XX/E90XX+ E100XX~ E110XX N.R.Lower E70XX E80XX E80XX/E90XX E80XXLower E70XX E70XX E70XX E70XX
Hardness Matching N.R. N.R. N.R. 1430-AX,1855-AX^
GMAWConsumables**StrengthLevel Matching ER80S-X/ER90S-X+ ER100S-X~ ER110S-X N.R.
Lower ER70S-X ER80S-X ER90S-X/ER100S-X ER80S-XLower ER70S-X ER70S-X ER80S-X ER70S-X
Hardness Matching N.R. N.R. N.R. 1855-BX^
FCAWConsumables***StrengthLevel Matching E8XTX-X/E9XTX-X+ E10XTX-X~ E11XTX-X N.R.
Lower E7XTX-X E9XTX-X E9XTX-X E8XTX-XLower E7XTX-X E8XTX-X E8XTX-X E7XTX-X
Hardness Matching N.R. N.R. N.R. 1430-BX,1855-BX,1860-BX^
SAWConsumables****StrengthLevel Matching F8XX/F9XX+ F10XX~ F11XX N.R.
Lower F7XX F7XX F7XX F7XXLower F6XX F6XX F6XX F6XX
Hardness Matching N.R. N.R. N.R. 1855-BX^
Table4bcourtesyofWTIA(TechNote15)
53
Notes:* MMAW–AWSA5.1-2004andAWSA5.5consumableclassification** GMAW–AWSA5.18-2005andAWSA5.28consumableclassification*** FCAW–AWSA5.20-2005andAWSA5.29consumableclassification**** SAW–AWSA5.17-1997andAWSA5.23consumableclassificationX AVariable-anyvalueallowedbytherelevantstandardmaybeacceptableprovidedthattheconsumableishydrogen
controlled(ielowhydrogen)+ E90XX,ER90S,E9XTXandF9XXtypeconsumablesovermatchthestrengthrequirementsbutmaybeused~ TheseConsumablesmaybedifficulttoobtain.InsomecasesE90XX,ER90S,E9XTXorF9XXtypeconsumablesmay
besubstituted,otherwiseuseE110XX,ER110S,E11XTXorF11XXtypes^ AS2576WTIATN4ClassificationsN.R.NotRecommended
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54
wELdIng ConSuMABLES For MAnuAL METAL ArC wELdIng (MMAw)
Table5:
BRANDS BISPLATE®60 BISPLATE®70 BISPLATE®80BISPLATE®
320,400,450,500
CIGWELDM.S. Alloycraft90
Alloycraft90(under)Alloycraft110(over)
Alloycraft110 N.R.
L.S.Ferrocraft61
Ferrocraft16TwincoatFerrocraft61
Ferrocraft16TwincoatFerrocraft61
Ferrocraft16TwincoatFerrocraft61
Ferrocraft16Twincoat
M.H. N.R. N.R. N.R. Cobalarc350,650or750
Lincoln M.S. Conarc70G Conarc80+ Conarc80,Conarc85+ N.R.
L.S.Conarc49C,
Easyarc7018-1Conarc49C,
Easyarc7018-1Conarc49C,
Easyarc7018-1Conarc49C,
Easyarc7018-1
M.H. N.R. N.R. N.R. N.R.
W.I.A M.S. N.R. WeldwellPH118 WeldwellPH118 N.R.
L.S.Austarc16TC,18TCor
Austarc77Austarc16TC,18TC
Austarc77N.R.
Austarc16TC,18TCAustarc77
M.H. N.R. N.R. N.R. AbrasoCord350,700
SpecialisedWeldingProducts(SWP)
^WAG=WeldingAlloysGroup
M.S. MetrodeE9018-D1 MetrodeE10018-D2 MetrodeE11018-M N.R.
L.S.WAG^Speedarc7018-1-EWAG^Speedarc7016-E
WAG^Speedarc7018-1-EWAG^Speedarc7016-E
WAG^Speedarc7018-1-EWAG^Speedarc7016-E
N.R.
M.H. N.R. N.R. N.R.
MetrodeMethard350MetrodeMethard650WAG^Hardface400-EWAG^HardfaceL-E
MAnuFACTurErS’ wELdIng ConSuMABLES
WeldingConsumablessuitableformatchingstrength,lowerstrengthandmatchinghardnessarereadilyavailablefromarangeofconsumablemanufacturersasperfollowingtables5to8.
55
M.S.–MatchingStrengthL.S.–LowerStrengthM.H.–MatchingHardnessN.R.–NotRecommendedN.A.–NotAvailableN.B.–Consumablesinbracketswillmatchmechanicalpropertyrequirementsinthemajorityofinstancesaspermanufacturer’srecommendationsandwheretheappropriateweldprocedureisapplied.WeldQualificationproceduresshouldbecarriedouttoestablishactualWeldmetalproperties.
+Overmatchingstrength**C02ormixedgas
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Table5:Continued
BRANDS BISPLATE®60 BISPLATE®70 BISPLATE®80BISPLATE®
320,400,450,500
SMENCO/EutecticCastolin
M.S. N.A. N.A. N.A. N.R.
L.S. Eutectrode66*66 Eutectrode66*66 Eutectrode66*66 Eutectrode66*66
M.H. N.R. N.R. N.R. N.R.
ESAB M.S. OK74.70 OK74.86 OK75.75 N.A.
L.S. OK48.08,OK48.04 OK48.08,OK48.04 OK48.08,OK48.04 N.A.
M.H. N.R. N.R. N.R.OK83.28(30HRC)
OK83.50(50-60HRC)
56
wELdIng ConSuMABLES For gAS METAL ArC wELdIng (gMAw)
Table6:
BRANDS BISPLATE®60 BISPLATE®70 BISPLATE®80BISPLATE®
320,400,450,500
CIGWELD/STOODY
ContactBisalloyorCigweldforshielding
gasinformation
M.S. AutocraftMnMoAutocraftMnMo(Under)AutocraftNiCrMo(Over)
AutocraftNiCrMo N.R.
L.S.AutocraftLW1orAutocraftLW1-6
AutocraftLW1orAutocraftLW1-6
AutocraftLW1orAutocraftLW1-6
AutocraftLW1orAutocraftLW1-6
M.H. N.R. N.R. N.R. AutocraftHF650
Lincoln M.S. LNMNi1 LNMNi1(UM) LNMMoNiVa N.R.
L.S. UltraMagS4UltraMagS6**
UltraMagS4UltraMagS6**
UltraMagS4UltraMagS6**
UltraMagS4UltraMagS6**
M.H. N.R. N.R. N.R. N.R.
W.I.AM.S.
AustmigESD2/CO2orMixedGas AustmigNiCrMo+ AustmigNiCrMo N.R.
L.S.AustmigES6/CO2orMixedGas
AustmigES6/CO2orMixedGas
AustmigES6/CO2orMixedGas
AustmigES6/CO2orMixedGas
M.H. N.A. N.A. N.A. TD600/CO2orMixedGas
SpecialisedWeldingProducts(SWP)
M.S. SWPD2 SWP110+ SWP110 N.R.
L.S. SWPS6 SWPS6 SWPS6 N.R.
M.H. N.R. N.R. N.R.SWPHF350SWPHF600
SMENCO/EutecticCastolin M.S. AN45252+/
CO2orMixedGasAN45252+/
CO2orMixedGas
AN45252/CO2orMixedGas
N.R.
L.S.DO*65/CO2orMixedGas
DO*65/CO2orMixedGas
DO*65/CO2orMixedGas
DO*65/CO2orMixedGas
57
M.S.–MatchingStrengthL.S.–LowerStrengthM.H.–MatchingHardnessN.R.–NotRecommendedN.A.–NotAvailableN.B.–Consumablesinbracketswillmatchmechanicalpropertyrequirementsinthemajorityofinstancesaspermanufacturer’srecommendationsandwheretheappropriateweldprocedureisapplied.WeldQualificationproceduresshouldbecarriedouttoestablishactualWeldmetalproperties.
+Overmatchingstrength**C02ormixedgas
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Table6:Continued
BRANDS BISPLATE®60 BISPLATE®70 BISPLATE®80BISPLATE®
320,400,450,500
ESABM.S.
OKAristoRod13.09MixedGas
OKAristoRod55MixedGas
OKAristoRod69MixedGas
N.A.
L.S.OKAristoRod12.50CO2orMixedGas
OKAristoRod12.50CO2orMixedGas
OKAristoRod12.50CO2orMixedGas
N.A.
M.H. N.R. N.R. N.R.OKAutoRod13.89(30-40HRC)OKAutoRod13.90(50-60HRC)
58
wELdIng ConSuMABLES For FLux CorEd ArC wELdIng (FCAw)
Table7:
BRANDS BISPLATE®60 BISPLATE®70 BISPLATE®80BISPLATE®
320,400,450,500
CIGWELD/STOODY
ContactBisalloyorCigweldforshieldinggasinformation
M.S.Seamless Verticor91K2H4
Verticor91K2H4(Under)***Verticor111K3H4(Over)Tensicor110TXPH4(Over)Metalcor110H4(Over)
***Verticor111K3H4Tensicor110TXPH4Metalcor110H4
N.R.
L.S.Seamless(E6XT-X) VerticorXPLTH4 VerticorXPLTH4 VerticorXPLTH4 VerticorXPLTH4
L.S.Seamless
Verticor3XPH4Verticor5XPH4Metalcor5H4
Verticor81Ni1H4
Verticor3XPH4Verticor5XPH4Metalcor5H4
Verticor81Ni1H4
Verticor3XPH4Verticor5XPH4Metalcor5H4
Verticor81Ni1H4
Verticor3XPH4Verticor5XPH4Metalcor5H4
Verticor81Ni1H4
L.S.Seamed
Verticor3XPSuprecor5MetalcorXP
Verticor81Ni181Ni2
Verticor3XPSuprecor5MetalcorXP
Verticor81Ni181Ni2
Verticor3XPSuprecor5MetalcorXP
Verticor81Ni181Ni2
Verticor3XPSuprecor5MetalcorXP
Verticor81Ni1,81Ni2
L.S.SelfShielded
Shieldcor8XPShieldcor8Ni
Shieldcor8XPShieldcor8Ni
Shieldcor8XPShieldcor8Ni
Shieldcor8XPShieldcor8Ni
M.H. N.R. N.R. N.R.StoodySuperBuild-Up-G
Stoody965-GStoody965AP-G
Lincoln M.S. Outershield91Ni1-HSR Outershield91Ni1-HSR(UM) Outershield690-H N.R.
L.S. Outershield81Ni1,71-MX,71-CXInnershieldNR-232,NR-233,NS-3M
Outershield81Ni71-MX,71-CXInnershieldNR-232,NR-233,NS-3M
Outershield81Ni-H,71-MX,71-CXInnershieldNR-232,NR-233,NS-3M
Outershield81Ni1,71-MX,71-CXInnershieldNR-232,NR-233,NS-3M
M.H. N.R. N.R. N.R. Lincore33,Lincore36LS,Lincore55-G
W.I.A/HobartBrothers M.S.
Austfil81N1M/MixedGasTM-71HYD/CO2
TM-811N2/CO2orMixedGasFabCO110K3M/MixedGas FabCO110K3M/MixedGas N.R
L.S.
Austfil71T-1/CO2Austfil70C-6M,71T-1M/MixedGas
FormulaXL-525/MixedGasFabshield4,XLR-8
TM-991K2/CO2orMixedGasAustfil81N1M/MixedGas
TM-71HYD/CO2TM-811N2/CO2orMixedGasMetalloy80N1/MixedGas
TM-991K2/CO2orMixedGasAustfil81N1M/MixedGas
TM-71HYD/CO2TM-811N2/CO2orMixedGasMetalloy80N1/MixedGas
Austfil70C-6M,71T-1M,81N1M/MixedGas
Austfil71T-1,TM-71HYD/CO2
TM-811N2/CO2orMixedGasMetalloy80N1/MixedGasFormulaXL-525/MixedGas
Fabshield4,XLR-8
M.H. N.R. N.R. N.R. Vertiwear600/MixedGas
59
M.S.–MatchingStrengthL.S.–LowerStrengthM.H.–MatchingHardnessN.R.–NotRecommendedN.A.–NotAvailableN.B.–Consumablesinbracketswillmatchmechanicalpropertyrequirementsinthemajorityofinstancesaspermanufacturer’srecommendationsandwheretheappropriateweldprocedureisapplied.WeldQualificationproceduresshouldbecarriedouttoestablishactualWeldmetalproperties.+Overmatchingstrength**C02ormixedgas***Verticor111K3H4notrecommendedforplatethicknessover20mm
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Table7continued:
BRANDS BISPLATE®60 BISPLATE®70 BISPLATE®80BISPLATE®
320,400,450,500
SMENCO/EutecticCastolin
M.S. N.A. N.A. N.A. N.A.
L.S. TeromatecOA2020 TeromatecOA2020 TeromatecOA2020 TeromatecOA2020
M.H. N.R. N.R. N.R. N.R.
SpecialisedWeldingProducts
(SWP)^WAG=WeldingAlloysGroup
M.S.WAG^RobofilRNi1+WAG^RobofilMNi1WAG^RobofilBNi1
WAG^RobofilR690+WAG^RobofilM700WAG^RobofilB700
WAG^RobofilR690+WAG^RobofilM700WAG^RobofilB700
N.R.
L.S.WAG^RobofilR71+WAG^RobofilM71WAG^RobofilB71
WAG^RobofilR71+WAG^RobofilM71WAG^RobofilB71
WAG^RobofilR71+WAG^RobofilM71WAG^RobofilB71
N.R.
M.H. N.R. N.R. N.R.
WAG^RobodurK350-GWAG^RobodurK450-GWAG^RobodurK600-GWAG^HardfaceT-GWAG^HardfaceP-GWAG^HardfaceL-GWAG^HardfaceLP-G
ESAB M.S. DualshieldII80-Ni1H4MixedGas DualshieldT-100CO2ShieldingGas DualshieldT-115CO2orMixedGas N.A.
L.S. Dualshield7100UltraMixedGasDualshieldII80-Ni1H4MixedGasDualshield7100UltraMixedGas
DualshieldII80-Ni1H4MixedGasDualshield7100UltraMixedGas
N.A.
M.H. N.R. N.R. N.R.OKTubrodur15.40(30-40HRC)CO2OKTubrodur15.52(55-60HRC)
CO2orSelfShielded
60
wELdIng ConSuMABLES For SuBMErgEd ArC wELdIng (SAw)
Table8:
BRANDS BISPLATE®60 BISPLATE®70 BISPLATE®80BISPLATE®
320,400,450,500
CIGWELDM.S. N.A.
AutocraftNiCrMo(Over)/Satinarc4
AutocraftNiCrMo/Satinarc4
N.R.
L.S.AutocraftSA1SA2/Satinarc4or15
AutocraftSA1SA2/Satinarc4or15
AutocraftSA1SA2/Satinarc4or15
AutocraftSA1SA2/Satinarc4or15
M.H. N.R. N.R. N.R.Stoody105or107/StoodySFlux
LincolnM.S.
LincolnweldLA-90/880Mor8500
LincolnweldLAC-690/880M/888+
LincolnweldLAC-690/880M/888
N.R.
L.S. L-60/L-61/761,860,960Flux L-60/L-61/761,860,960Flux L-60/L-61/761,860,960Flux L-60/L-61/761,860,960
M.H. N.R. N.R. LC25-S/880FluxLincore30-S,Lincore42-S,Lincore50/880or802Flux
ESAB M.S. OKTubrod15.24S+OK10.62 OKTubrod13.43+OK10.62 OKTubrod15.27S+OK10.62 N.A.
L.S. OK12.22/OK10.71 OK12.22/OK10.71 OK12.22/OK10.71 N.A.
M.H. N.A. N.A. N.A. N.A.
SpecialisedWeldingProducts(SWP)
^WAG=WeldingAlloysGroup
M.S. S3Ni1MoWire/BF10Flux S3Ni1MoWire/BF10Flux S3Ni2.5CrMoWire/BF10Flux N.R.
L.S.SWPEM12KWire/WAG^
WAF325FluxSWPEM12KWire/WAG^
WAF325FluxSWPEM12KWire/WAG^
WAF325FluxN.R.
M.H. N.R. N.R. N.R.
WAG^HardfaceT-SWire/WAG^WAF325Flux
WAG^HardfaceP-SWire/WAG^WAF325Flux
WAG^HardfaceL-S/WAG^WAF325Flux
61
M.S.–MatchingStrengthL.S.–LowerStrengthM.H.–MatchingHardnessN.R.–NotRecommendedN.A.–NotAvailableN.B.–Consumablesinbracketswillmatchmechanicalpropertyrequirementsinthemajorityofinstancesaspermanufacturer’srecommendationsandwheretheappropriateweldprocedureisapplied.WeldQualificationproceduresshouldbecarriedouttoestablishactualWeldmetalproperties.
+Overmatchingstrength
Atthetimeofprintingallconsumableslistedwerecurrent/accuratebutconsultconsumablemanufacturerforuptodateinformation.
wELdIng ProCEdurES
Thespecificeffectsofweldingonweldjointpropertiesinanypracticalsituationwilldependonmanyfactorsincludingthechoiceofconsumables,totalweldheatinput,levelofrestraint,weldgeometryandproximityofadjacentwelds.
GuidanceonweldproceduresforspecificapplicationsmaybesoughtfromBisalloytechnicalstafforconsumablesuppliers.
ArC STrIkES
Arcstrikesoutsidetheweldedzonecanresultincracks,particularlyondynamicallyloadedstructures.Allstrikesshouldbemadewithinthejointpreparation.
TACk wELdIng
Tackweldsrequirespecialcareduetotheabnormalstressesandhighcoolingratesexperiencedbytheadjacentmaterial.Thesamepreheat,heatinputrequirementsshouldbeemployedandlowerstrengthweldingconsumablesconsidered.
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FILLET wELdIng
GoodfilletweldingtechniquesareimportantinweldingQ&Tsteelsbecauseoftenveryhighstressesareappliedinservice.Itisessentialthatweldshavegoodrootpenetration,besmooth,correctlycontouredandwellflaredintothelegsofthejoinedpieces.Lowerstrengthconsumablesaresuggestedwhendesignpermits.
WTIATech.Note15providesguidanceoncorrectproceduresforfilletwelding.
rEPAIr work
Itisgoodpracticetoweldrepairwithlowerstrengthconsumables(lowhydrogentype),sinceplatematerialswhichhavebeenhighlystressedinservicemaytendtowarpordistortslightlyduringweldingandimprovedductilitymayberequired.Insomesituations,suchasjointsunderrestraint,jointssubjectedtoimpact/fatiguestresses,etc,specialweldingconsumablesmaybenecessary.
wELdIng STrESSES
Itshouldbeemphasisedthattherecommendedvaluesofpreheatandheatinputarebasedonlowtomoderatelevelsofrestraint.Forconditionsofhighrestraintitisimportanttominimisethedegreetowhichfreecontractionishamperedanditmaybenecessarytousehigherpreheats.Properweldingsequenceandsmalljointconfigurationswouldbeconsideredimportantinhighrestraintsituationsanditisadvisabletoestablishweldingparameterswithsimulatedfullscaleweldtests.
Careshouldalsobeexercisedattheassemblystagetoavoidoffsetandangulardistortionattheplateedge,undercuttingandbadappearance.
STrESS rELIEF
StressreliefmaybeconductedonBISPLATE®60,70,80and80PVgradesbutisadvisableonlyifabsolutelynecessary(eg.tocomplywithAS1210inthecaseofroadtankers).Stressreliefisrecommendedwithina540-570°Ctemperaturerangeforonehourper25mmofthickness.ThermalcyclingisgenerallyperformedinaccordancewithAS1210CoderequirementsforQ&Tsteels.Thetoesofweldbeadsshouldbedressedbygrindingpriortoanystressrelieftreatmentinordertopreventstressreliefcracking.
63
WhenstressrelievingBISPLATE®≤12mm(typically0.40CE(IIW))andmatchingstrengthacrosstheweldisarequirement,itisrecommendedtoweldwithminimumpermissiblepreheat/interpasstemperatures(Table2)andheatinput(Table3)conditionstominimisethedegreeofsofteningoranylossofstrengthwhichmayoccurintheHAZ.
ConsultBisalloySteels®forfurtherinformationifrequired.
PoST-wELd HEATIng
Post-weldheatingat200-250°CmaybeconductedasaneffectivehydrogendissolutiontreatmentparticularlywhenconsumablesotherthanH5orH10areused.
HELPFuL HInTS
GeneralrulesforgoodqualityweldingofBISPLATE®:•Usealowhydrogenprocess,eg.GMAW(MIG),FCAW(gasshielded)•Adheretothecorrectrulesforstorageandhandlingoflowhydrogenconsumablesperthemanufacturers’recommendations,orWTIATech.Note3
•Cleanjointareaofallcontaminantspriortowelding•Remove1-2mmfromflamecutorgougedsurfacesbygrinding•Selecttherecommendedpreheat,interpassandheatinputparameters•Positionfordownhandweldingwherepossible•Alwaysusestringerbeads,neverwideweaves•Uselowerstrengthconsumablesonrootrunsandfilletwelds(whenthedesignpermits)•Usetemperbeadswhennecessary•Arcstrikestobemadeinthejointpreparation•Particularattentionshouldbegiventotackweldsrepreheat,heatinputandjointcleanlinessrequirements•Grindingtoesoffilletweldsisparticularlyimportantinfatigueapplications
rEFErEnCES/FurTHEr rEAdIng
•AS1554Part4WeldingofQ&TSteels•AS1554Part5WeldingofSteelStructuresSubjecttoHighLevelsofFatigueLoading•WTIATechnicalNote15•WTIATechnicalNote3•WTIATechnicalNote1
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BEndIng, roLLIng, ForMIng, SHEArIng And PunCHIng BISPLATE®
ForMIng
CoLd ForMIng
AlloftheBISPLATE®quenchedandtemperedsteelgradescanbecoldformed,usingbrakepressbendingorplaterollingtechniques.
However,withanincreaseinbothhardnessandyieldstresscomparedtoplaincarbonsteelgrades,suitableconsiderationofsufficientmachinepower,platebendingdirectionandformerradiimustbemade.
Inaddition,springbackallowancesshouldbegreaterthanforplaincarbonsteelandwilldependonthetypeofforming.Plateedgesshouldbegroundsmooth,andforthickplatesandhighhardnessgrades,theplateedgesshouldberoundedpriortoforming.
Itisrecommendedforthehighhardnessgradesthatwherepossiblethebendaxisbeatrightanglestotheplaterollingdirection(transversebending).Forplate16mmandaboveinBISPLATE®500grade,itissuggestedbendingbedoneinthetransversedirectiononly(refertofigure1a).
Figure1a:
Figure1b:
Figure2:
Schematic of transverse bend direction.
Plate Rolling Direction
Ben
d A
xis
Schematic of longitudinal bend direction.
Plate Rolling Direction
Bend Axis
Schematic diagram of brake press bending.
W = Width t = Thickness r = Radius
65
MInIMuM ForMEr rAdII (r) In MM For CoLd ForMIng
Table1followinggivestheminimumformerradiiforcoldformingoftheBISPLATE®grades(wherepossiblealargerformerradiishouldbeused).
Table1:
BISPLATE®GRADE 60 70 80 320,400 450 500
BendDirection T L T L T L T L T L T L
PlateThickness(t)(mm)5681012162025324050
121212151824405064100140
121516202432506280120190
121212151824405080110150
121516202432506295130200
1215202530456575100125150
1215202530456575110140200
1520253035507080110170300
202535455575100125175250–
–253240486480100130160200
–3040506080100130160200250
––40506085100150250––
––7090110––––––
T:TransverseBendingDirection(refertofigure1a)L:LongitudinalBendingDirection(refertofigure1b)
Notesre:Table11.Abovevaluesweredeterminedforplateatatemperatureof30°C.Ifminimumformerradiivaluesaretobeused,plate
temperatureshouldbeatleast30°C,maximum100°C.Ifformingatatemperaturelessthan30°C,anincreaseinformerradiiofminimum50%mustbemade
2.Whenpressingisbeingdoneinasinglepassoperation,anincreaseinformerradiiofminimum50%mustbemade3.Whenformingusingtheseminimumformerradii,flamecuthardenededge(heataffectedzoneof1-2mm)shouldberemoved4.Theuseofsmallerformerradiithaninthetableisnotrecommended5.Forbestcoldformingresults,ensureadequatelubricationbetweentheplate,dieandformer6.Dieopenings:refertoTable3
66
CAPACITy oF PrESS
AllBISPLATE®gradeshaveyieldandtensilestrengthshigherthanforplaincarbonsteel.
Itisimportantthatthecapacityofthemachineissuitable,bendingpressmanufacturersprovideinformationonbendingloadsinrelationtoV-blockopening,platethicknessandsteelstrength.
Table2givesanindicationoftheapproximatebendingforcerequiredwhenformingBISPLATE®grades,comparedtoplaincarbonsteel(e.g.AS3678-Grade250).
Approximatebendingforce(P)requiredforBISPLATE®grades,comparedtoplaincarbonsteel,foragivenforminggeometry(referfigure2).
67
Table2:
STEELGRADE BENDINGFORCE(P)
AS3678Grade250 P
BISPLATE® 60 2.0P
70 2.4P
80 2.8P
320 4.0P
400 5.0P
450 5.2P
500 6.4P
ApproximateDieOpenings(referfig2)
Table3:
BISPLATE®GRADEW/tTRANSVERSE
BENDINGW/tLONGITUDINAL
BENDING
607080320400450500
6.06.07.08.58.510.010.0
7.57.58.510.010.012.012.0
HoT ForMIng
TheoperationofhotformingisnotrecommendedfortheBISPLATE®grades,ashotformingisgenerallydoneatahightemperature(900-1000°C)whichexceedsthetemperingtemperature.
Asaresult,themechanicalpropertiesofquenchedandtemperedsteelswillbereducedconsiderably.
However,ifhotformingisunavoidable,itisessentialthatthecomponentberequenchedandtemperedtorestoreoriginalmechanicalproperties.
SHEArIng And PunCHIng
ShearingandpunchingofthelowerhardnessBISPLATE®gradescanbedonesuccessfully,providedamachineofsufficientpowerandstabilityisused.
BISPLATE®60,70and80gradescannormallybecoldshearedupto25mmthickness.However,thenecessaryshearingforceisintheorderof2-3timesthatrequiredforplaincarbonsteelgrades.ThegradesofBISPLATE®400,450and500shouldnotbeconsideredforshearing.
Theguillotinebladesshouldbeverysharpandsetwithaclearanceof0.25–0.40mm.Note,themaximumlimitingthicknessforcoldpunchingareapproximatelyhalfthecoldshearingvalues.
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MAxIMuM THICknESS For CoLd SHEArIng And PunCHIng
Table4:
BISPLATE®GRADE COLDSHEARING COLDPUNCHING
607080320400450500
25mm25mm25mm10mm
NotRecommendedNotRecommendedNotRecommended
12mm12mm12mm6mm
NotRecommendedNotRecommendedNotRecommended
69
drILLIng, CounTErSInkIng And TAPPIng BISPLATE®
gEnErAL InForMATIon
AllgradesofBISPLATE®areabletobedrilled,countersunkandtappedalthough,aswithmostfabricationaspects,careshouldbetakenwiththesegradesofsteel.
Inallcases,suitablehighpoweredandrigiddrillingequipmentshouldbeused.
drILLIng oF HIgH STrEngTH STruCTurAL grAdES
WhendrillingthestructuralBISPLATE®grades60,70and80theuseofcobalttypehighspeedsteeldrillsisrecommended.Drillsequippedwithreplaceablecarbideinsertscanalsobeused.
drILLIng oF wEAr/ABrASIon rESISTAnT grAdES
BISPLATE®320,400and450gradesmaybedrilledwitheithercobalttypehighspeedsteeldrillsordrillsequippedwithreplaceablecarbideinserts.
WithregardstothedrillingofBISPLATE®500grade,werecommendonlytheuseofdrillsequippedwithreplaceablecarbideinserts.
rECoMMEndATIonS For IMProVEd rESuLTS
•Thesupportingbarsundertheplateshouldbeplacedasclosetotheholeaspossible•Ifpossible,useaplaincarbonsteelbackingplateundertheBISPLATE®
•Thedrillingheadshouldbeplacedascloseaspossibletothemainsupport•Shortlengthdrillsarepreferred•Thelastpartoftheholetobedrilledshouldbedonewithmanualfeed•Usageofadequatecoolant(waterandoilemulsionmixture)
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APProxIMATE FEEdS And SPEEdS uSIng CoBALT TyPE HIgH SPEEd STEEL drILLS
Table1:
STEELGRADEPERIPHERAL
SPEED(m/min)
R.P.M.(UPPERFIGURES)ANDFEEDPERREVOLUTION(mm)FORGIVENDRILLSIZE HARDNESS(HB)
5mm 10mm 15mm 20mm 25mm 30mm
AS3678-Grade250 ~2314650.10
7350.15
4900.20
3700.25
2950.35
2450.4
~120
BISPLATE®60 ~2012800.10
6400.10
4250.16
3200.23
2550.30
2100.35
~220
BISPLATE®70 ~1912100.10
6100.10
4100.16
3000.23
2400.30
2000.35
~240
BISPLATE®80 ~1811500.10
5750.10
3900.16
2900.23
2300.30
1900.35
~260
BISPLATE®320 ~127600.07
3800.10
2500.16
1900.23
1500.30
1300.35
320(min)
BISPLATE®400 ~95700.05
2850.10
1900.16
1500.23
1100.30
900.35
370(min)
BISPLATE®450 ~74400.05
2200.09
1500.15
1100.20
900.25
750.30
425(min)
Note:Thistableapplieswhencobalttypehighspeeddrillsareusedwithacuttingfluid,ifnofluidisusedthespeedsshownabovemustbereduced
71
DrillTipConfigurationforCobaltTypeHighSpeedDrills
Fig2:
ApproximateFeedsandSpeedsUsingDrillsWithReplaceableCarbideInserts
rECoMMEndEd drILL TIP ConFIgurATIon For CoBALT TyPE HIgH SPEEd drILLS
Table2:
BISPLATE®GRADE POINTANGLE LIP/CLEARANCEANGLE
607080
118deg.118deg.118deg.
10deg.10deg.10deg.
320400,450
125deg.150deg.
7.5deg.5deg.
Point AngleSchematic of Drill Tip
Lip/Clearance Angle
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APProxIMATE FEEdS And SPEEdS uSIng drILLS wITH rEPLACEABLE CArBIdE InSErTS
Table3:
BISPLATE®GRADE INSERTGRADE SURFACESPEED(m/min) FEEDRATE(mm/rev) BRINELLHARDNESS
60 1020 125-210 0.06-0.18 ~220
70 1020 125-210 0.06-0.18 ~240
80 1020 125-210 0.06-0.18 ~260
320 1020 125-210 0.06-0.18 320-360
400 H13A 125-210 0.06-0.18 370-430
450 H13A 70-90 0.06-0.14 425-475
500 H13A 70-90 0.06-0.12 500(avg)
Note:AbovedrillingrecommendationsarebasedonusingaSandvikCoromantUdrillandisbasedonholesizesof12.7-60mmdiameter.Throughthetoolcoolantmustbeused.Itmaybenecessarytousedifferentinsertgradesandgeometriestosuittheapplication.
FurtherinformationcanbeobtainedfromyourlocalSandvikCoromantoffice.
73
CounTErSInkIng And CounTErBorIng
CountersinkingandcounterboringofholesispossibleinallBISPLATE®gradeswithbestperformanceobtainedusingtoolswitharevolvingpilot.Thepilotincreasesthestabilityandallowstoolswithreplaceablecarbideinsertstobeused.
CobalttypehighspeedsteeldrillswithapilotcanbeusedfortheBISPLATE®grades60,70,80,320,400and450.Thecuttingdatawillvaryfrommachinetomachine.Acoolantshouldbeused.ReplaceablecarbideinserttoolsshouldbeusedonBISPLATE®500grade.
CuTTIng SPEEdS And FEEdS wHEn uSIng HIgH SPEEd STEEL CoBALT TyPE TooLS
Table4:
BISPLATE®GRADE
CUTTINGSPEED(m/min)
ø16 ø20 ø25 ø32 ø40 ø60
RPM FEED(mm/r) RPM FEED
(mm/r) RPM FEED(mm/r) RPM FEED
(mm/r) RPM FEED(mm/r) RPM FEED
(mm/r)
60 10-12 250 0.05-0.2 200 0.05-0.2 160 0.07-0.3 110 0.07-0.3 90 0.07-0.3 70 0.07-0.3
70 9-11 210 0.05-0.2 170 0.05-0.2 130 0.07-0.3 90 0.07-0.3 60 0.07-0.3 60 0.07-0.3
80 7-9 170 0.05-0.2 130 0.05-0.2 100 0.07-0.3 70 0.07-0.3 60 0.07-0.3 40 0.07-0.3
320 6-8 150 0.05-0.2 120 0.05-0.2 90 0.07-0.3 60 0.07-0.3 50 0.07-0.3 40 0.07-0.3
400450
4-6 130 0.05-0.2 105 0.05-0.2 75 0.07-0.3 50 0.07-0.3 40 0.07-0.3 30 0.07-0.3
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CuTTIng SPEEdS And FEEdS wHEn uSIng rEPLACEABLE InSErT TooLS
Table5:
BISPLATE®GRADE
CUTTINGSPEED(m/min)
ø20 ø25 ø32 ø40 ø60
RPM FEED(mm/r) RPM FEED
(mm/r) RPM FEED(mm/r) RPM FEED
(mm/r) RPM FEED(mm/r)
60 90-110 1675 0.15-0.20 1320 0.15-0.20 935 0.10-0.15 760 0.10-0.17 560 0.10-0.15
70 80-100 1500 0.15-0.20 1195 0.15-0.20 840 0.10-0.15 680 0.10-0.17 500 0.10-0.15
80 70-90 1340 0.15-0.20 1060 0.15-0.20 750 0.10-0.15 605 0.10-0.17 445 0.10-0.15
320 40-60 840 0.15-0.20 660 0.15-0.20 470 0.10-0.15 380 0.10-0.17 280 0.10-0.15
400 28-35 550 0.15-0.20 420 0.15-0.20 300 0.10-0.15 250 0.10-0.17 175 0.10-0.15
450 25-30 450 0.15-0.20 360 0.15-0.20 250 0.10-0.15 200 0.10-0.15 150 0.10-0.15
500 17-20 300 0.15-0.20 240 0.15-0.20 170 0.10-0.15 136 0.10-0.17 100 0.10-0.15
TAPPIng
Withthecorrecttoolsandcuttingspeeds,tappingcanbeperformedinalltheBISPLATE®gradesofsteel.ForthehighhardnessBISPLATE®400,450and500grades,higheralloyedtapsmustbeused.
Difficultiesthatcommonlyarisewhenthreadcuttinghighertensilestrengthsteelsincludetapsticking,tornthreadsandtheshortlifeoftaps.ThePrototypebrandtoolshavebeenspecificallydevelopedfortappingintheBISPLATE®gradesofsteel.
Withalltappingitisrecommendedthatthecuttingspeedisaccuratelycontrolled.
Forbestresults,cuttingoilorgreaseshouldbeused.Forthrough-holesofupto2timesdiameterinthreaddepth,inmetricsizes,thefollowingtappingtoolsarerecommended.
Note:Theintroductionofstressconcentrations(asaresultoftapping)isanimportantconsiderationinfatigueapplications
75
TAPPIng SPEEdS And TyPES rECoMMEndEd For BISPLATE® grAdES
Table6:
BISPLATE®GRADE TAPTYPE(prototype) TAPPINGSPEED(m/min) SIZERANGE LUBRICATION
60 Paradur20360 15 M3-M56 CuttingOil
70 Paradur20360 15 M3-M56 CuttingOil
80 PrototexInox202135 6-15* M1.6-M36 CuttingOil
320 PrototexInox202135 6-15* M1.6-M36 CuttingOil
400 PrototexInox202135 6-15* M1.6-M36 CuttingOil
450 PrototexNi202602 3 M1.6-M24 CuttingOil
500 ParadurH/C80311 1.6 M3-M12** CuttingOil
*6m/minusingsteamtemperedtapsand15m/minusingtincoatedtips
**Forlargersizethreads,threadmillingisrecommended
BisalloySteels®wishtothanksSandvikCoromantandTi-Tekfortheinformationpertainingtodrilling,tappingandcountersinkingcontainedinthispublication.
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TurnIng And MILLIng BISPLATE®
MILLIng And TurnIng rECoMMEndATIonS
MILLIng
MillingoperationscanbeperformedsatisfactorilyonallBISPLATE®grades;utilisationofcementedcarbidetoolingisrecommended.
Inmanysituations,themillingoperationentailsthedressingofaflamecutedge,andthensubsequentbulkmillingofmaterialtothedesiredsurfacefinishanddimensionaltolerance.
Caremustbetakentomakeafirstcutsufficientlydeeptoremovetheheataffectedzoneoftheflamecutedge.Cuttersmustbesufficientlyrobusttotakethisheavyloading.Insuchcircumstancesitisdesirablethat,duetothehighhardnessadjacenttotheflamecutsurfaces,cutterspeedsandfeedratesforinitialmillingshouldbereducedto40-50%ofthespeednormallyusedwhenmillingplaincarbonsteel.Theimportanceofadequatepreheatingpriortoflamecuttingandslowcoolingaftercuttingtominimiseedgehardeningisagainemphasised.Speedandfeedratesmaybeincreasedsomewhatforsubsequentbulkmillingto50-75%ofthesettingsusedforplaincarbonsteel.
MILLIng rECoMMEndATIonS
Table1:
BISPLATE®GRADECEMENTEDCARBIDETOOLING
GRADESURFACESPEED FEED/TOOTH
607080320400450500
GC4030GC4030GC4030GC4030GC4030GC4030GC4030
295m/min275m/min257m/min131m/min110m/min100m/min87m/min
0.25mm0.25mm0.25mm0.25mm0.25mm0.25mm0.25mm
Note:Theserecommendationsaregivenasaguideonly,andarebasedonstableworkingconditions.Itissuggesteda45deg.approachangleoraroundinsertfacemillbeused.Incertainconditionsitmaybenecessarytousenegativegeometrymillingtools.Feedratesaredependentongeometryselected.Eg.PMmediummachining0.1–0.28fzmm/toothPHheavymachining0.1–0.42fzmm/tooth.
77
AVoId VIBrATIonS
Indexableinsertsaresensitivetovibrations.Thesecanbeavoidedorreducedbyobservingthefollowing.
Whenturningormillinggascutedgesthecuttingdepthshouldbeatleast2mmtocopewiththehardnessandunevennessoftheedge.
Figure1: Figure2:
Showing the direction of milling. Showing the eccentricity milling cutter.oTHEr MILLIng rEQuIrEMEnTS
•Firmclampingoftheworkpiece•Usecutterswiththesmallestpossiblegapbetweentheteeth•Machinestabilitypermitting,unidirectionalmillingispreferable,seefigure1•Ifalargecutterisusedforthemillingofsmallareas,placethemillingcuttereccentricallytogetasmanyteethaspossibleoperating,seefigure2
•Avoid,ifpossible,theuseofauniversalcutterheadwhichgenerallycausesweakeningofthepowertransmissionandthetoolholder
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Undirectional milling
Opposed milling
Normal width
Small width
78
TurnIng
AllBISPLATE®grades,includingthosewithhardnessinexcessof360HBcanbeturnedsatisfactorilywithcarbidetooling,providedspindlespeedsandfeedratesarereducedfromthosenormallyemployedwhencarryingoutsimilarmachiningoperationsonplaincarbonsteel.Reductionsof50-70%inspindlespeedandupto50%infeedratemaybenecessary,dependingonthehardnessofthecomponentbeingmachined.Highspeedtoolsarenotrecommended.
Asanexample,thefollowingsettingshavebeenfoundtogivesatisfactoryresultswhenturningcylindricalworkpiecesof25mmdiameterfromthevariousBISPLATE®grades.Withincreasesinstockdiameter,spindlespeedswillobviouslyneedtobedecreased.
TurnIng rECoMMEndATIonS
Table2:
BISPLATE®GRADECEMENTEDCARBIDETOOLING
GRADESURFACESPEED
607080320400450500
GC4025GC4025GC4025GC4025GC4025GC4025GC4025
295m/min275m/min257m/min131m/min110m/min100m/min87m/min
ForoperationsunderfavourableconditionswherehigherproductivitycanbeobtainedGC4015couldbeused.ForoperationswithhightoughnessrequirementsandwhereincreasedsecurityisneededGC4035couldbeused.
Note:Theserecommendationsaregivenasaguideonlyandarebasedonstableworkingconditions.Thegeometryoftheinsertsusedwillbedependentontheoperation.Eg.PFforfinishing.PMformediummachining.PRforroughing.
79
Figure3:
Geometry of Turning insert: Finishing (F) Medium Machining (M) Roughing (R)
oTHEr TurnIng rEQuIrEMEnTS Figure4:
•Firmclampingoftheworkpiece•Avoidlongoverhangsforbothworkpieceandtoolholder•Usecorrecttipradius:toolargeatipradius,combinedwithinsufficientclamping,causesvibrations•Smallsettinganglesalsocancausevibrations
Diagram showing that some coated inserts combine toughness and hardness.
Cutting depth
Feed
Wea
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esis
tanc
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Toug
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®
80
ForMuLA For THE CALCuLATIon oF SPEEdS And FEEdS For gEnErAL MILLIng And TurnIng oPErATIonS.
Formulaforcalculationofcuttingspeed:v= π•D•nm/min 1000
Formulaforcalculationofturningspeed:n=v•1000m/minπ•D
Formulaforcalculationoftablefeed:u=n•Z•Szm/min
v=cuttingspeedm/minD=DiameterinmmofmillingcutterorworkpieceZ=NumberofcuttersSz=Feedpercutter,mmn=Turningspeed,rpmu=Tablefeed,mm/min
BisalloySteels®wishtothankSandvikCoromantforinformationpertainingtomillingandturningcontainedinthispublication.
81
BISPLATE® IdEnTIFICATIon MArkIng And CoLour CodIng
BisalloySteels®hasaseriesofidentificationmarkingsandcolourcodestoclearlyidentifytheplatespecificationsanddifferentiatethegradesfromeachotherandothergradesofsteel.Itiscrucialthatwhenplatesareprofiledthatthisidentificationistransferredtoalloff-cutstopreventgradeandsizemixes.
grAdE IdEnTIFICATIon STEnCILS-therearetwogradeIDstencilsoneachplatelocatedatoppositeendssothatifplatesarehalvedtheneachendremainsidentified.Thesestencilsarecolourmatchedtothegradecolourcoding.
PLATE IdEnTIFICATIon STEnCILS–therearetwoplateIDstencilsoneachplatelocatedatoppositeendssothatifplatesarehalvedtheneachendremainsidentified.
ForDomesticOrders ForExportOrders
Platesdeliveredviacentralstockwillnothaveacustomername.
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Pla
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CustomerNameDimensionsPlateWeightGradeAustralianStandard(ifapplic.)
CustomerNameCustomerO/No.DimensionsPlateWeightGradePlateNumber
82
PLATE CornErS–twodiagonalcornersoftheplatearecolouredwiththerelevantgradecolourcode.
Oneplatecornerishardstampedwiththeplatenumber.
PlatenumberColourcode
grAdE CoLour CodE
BISPLATE®60 -WhiteBISPLATE®70 -LimeGreenBISPLATE®80 -Pink BISPLATE®80PV -Pink/RedBISPLATE®320 -LightBlueBISPLATE®400 -OrangeBISPLATE®450 -YellowBISPLATE®500 -Black
R.D.
83
TESTIng And CErTIFICATIon
MECHAnICAL TESTIng
BrInELL HArdnESS TEST–BrinellhardnesstestisperformedinaccordancewiththerequirementsofAS1816.Allplatesareindividuallyhardnesstested.
TEnSILE TESTS–StructuralsteelgradesonlyaretensiletestedinaccordancewiththerequirementsofAS1391andthesetensiletestsaredoneonabatchbasis,perrequirementofAS3597.
CHArPy V-noTCH IMPACT TESTS–Structuralsteelgradesonlyareimpacttested.CharpyV-Notchtestsaredoneonabatchbasis,perrequirementofAS3597.
Standardtestdirectionislongitudinalandstandardtesttemperatureis-20degC.
TestsconductedinaccordancewithAS1544.2requirements.
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CErTIFICATIon
AseparateNATAcertifiedtestcertificatewillbeissuedforeachfullplatesupplied.TestsareconductedinourNATAcertifiedlaboratoryandwilldetailchemicalanalysis,hardnessandrelevantmechanicaltestinformationdependentonthegradeordered.
85
HArdnESS TESTIng BISPLATE®
wHAT IS HArdnESS?
Hardnessistheresistanceofmaterialtoplasticdeformation–usuallybyindentationorpenetration.Italsodefinestheabilityofmaterialtoresistscratching,abrasionorcutting.
wHy TEST For IT?
Hardnesstestingisundertakento: 1.Specifyandcertifyarangeofwearresistanceproducts. 2.Doublecheckthetensilestrengthofstructuralgradematerials. 3.Assistinfailureanalysesandmaterialidentification.
Table1:
METHOD STANDARD BASIS MEASUREMENT ACCURACYAPPROX% MAXTEMP
Brinell(4) AS1816
10mmTungstenCarbideball(1)impressedunder3,000kgload
Surfaceareaforknownload
±2 50ºC
Vickers(HV) AS1817136ºDiamondpyramidimpressedunderload
Surfaceareaforknownload
±2 50ºC
Rockwell(HR)A,B,CAS1815
ISO6517-1
120ºConicalDiamondSteelballusedforsoft
metals
Depthofimpressionunderknownload
(15-150kg)±2 50ºC
Equotip(2) NIL “Rebound”Method Heightofrebound Poor –
Poldi(3) NIL10mmBallimpressedwithhammeredtestbar
ComparativeimpressionVeryPoor(±20)
50ºC
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Pla
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®
86
wHErE To TEST?
Testingcanbecarriedoutinthelaboratory,workshoporonsite.
However,sitetestingwithportableequipmentcanoftenhavedifficultiesofaccess,surfacepreparationandvibration,whichmayreducetheaccuracyoftesting.
TESTIng ProCEdurES And EQuIPMEnT
Thetableabovesetsoutthemethodsofidentifyingcommonindentationhardness,andothertypesofhardnesstests.Itisabsolutelyvitaltounderstandthespecificuses,strengthsandanyweaknessesof–andcorrectrequirementsandproceduresdemandedby–eachofthesemethodsinordertoensureconsistent,comparableresultsintesting.InTErPrETIng TABLE 1 – SoME IMPorTAnT ConSIdErATIonS
1.Wherethemaximumhardnessoftheworkexceed450HB,butdoesn’texceed650HB,thestandardsaysatungstencarbideballmustbeused.
2.Equotipisa“rebound”methodofhardnesstesting,whichdoesNOTmeasurehardness(indentationorplasticdeformation)butgivesaresultconvertiblewithinarestrictedrangeintoanindentationhardnessfigure.Thismethodisnotstandardisedandgivesonlyindicativeresults.Itisextremelydependentontheoperator,testmaterialandsurfacecondition.ItisNOTrecommendedonquenchedandtemperedsteel,orsurfacesthataren’tbrightandsmoothlyground.
3.ThePolditestissometimesemployedinthefield.Eventhoughitisanimpressionmethod,itdisplaysverypooraccuracy.Itisnotrecommendedforquenchedandtemperedsteel.
4.TheBrinelltestisstronglyrecommendedforallBISPLATE®gradesasitiswidelyacceptedastheindustrystandard.(Brinellgivesamoredefinitereading,byleavingamoredefiniteimpressionontheplate).ItisthestandardemployedatBisalloyandbyothermanufacturers,bothontheproductionlineandinthelaboratory.ThehardnessratingonacertificateissuedbyBisalloyismeasuredinBrinellhardness.ConvertedvaluesfromothermethodssuchasRockwellorVickers(moreoftenusedinlaboratorytestingsmallsamplesofsteel,orinsmall-partsengineering,andnotidealforuseintheproductionenvironment)cancausesmalldiscrepanciesfromtheBrinellratingonthecertificate.
87
ProPEr PrEPArATIon oF THE TEST SurFACE
SinceBISPLATE®isaquenchedandtemperedsteel,somedecarburisationwilloccurontheplatesurfaceduringtheheattreatmentprocess.Thethicknessofthedecarburisedlayer(theverythinsurfacelayerwhichhaslostcarbonduringaustenitising)willvarydependingontheplatethickness.Thisdecarburisedlayerwillgetthickerastheplatethicknessincreases.
Toensuretestingaccuracy,surfacescaleandthedecarburisedlayermustalwaysberemovedbyeithergrindingormachiningfromtheareaswherehardnessmeasurementsaretaken.TheminimumgrindingormachiningdepthsarelistedintheTable2.
Table2:
PLATETHICKNESS MINGRINDINGORMACHININGDEPTHS(mm)
≤6 0.2
>6-10 0.3
>10-20 0.5
>20-50 0.7
>50-80 1.0
>80 1.5
Withoutremovingtheentiredecarburisedlayerbygrindingormachining,theresultsofthehardnesstestwillbeinvalid.
Itshouldalsobenotedthattheareatestedshouldbeamin.of75mmfromanythermallycutsurfacetoavoidanyheat-affectedzone.
Thetestedareamustrepresentthewholematerial,mustbeclean,freefromunwantedscale,andmustbeflat,sufficientlythickandsmooth.
Thetestpiecemustbewellsupportedandnotsubjecttomovementorvibration.
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CALIBrATIon
Tofurtherensureaccuracyandconsistency,alltestingequipmentmustbecalibrated(usually3yearly)andcheckeddailyagainstcalibrationblocks.
PErSonnEL CoMPETEnCy
Foralltests,theoperatorrequirestraininginthecorrectmethodsandassessmentacceptabletotheemployer.PreferenceisgiventoNATAregisteredlaboratoriesforhigh-riskapplications.
rEPorTIng
Reportingshouldincludeplateidentification,location,method,result,date,surfacecondition,operator’snameandsignature.RefertoAS1816.
Table3:
GRADE SPECIFIEDHARDNESS(HB) TYPICALHARDNESS(HB)
BIS80 255
BIS320 320-360 340
BIS400 370-430 400
BIS450 425-475 450
BIS500 477-534 500
89
Currently–alreadyuniqueamongothermanufacturers–Bisalloygoestotheextentofphysicallytestingeveryplateproduced–thatis,eachonegoesthroughthefullprocessofgrinding,testandmeasure.
Thesizeoftheindentationismeasuredusingthelatestvideoimagingtechnology,whichisinterfacedwithadedicatedcomputertogenerateaBHnumbertowithinonepoint.
Thistestingprocedureisnowfullyautomatedincludingautomatedgrindingandindentation,guaranteeinganevengreaterandmoreconsistentlevelofaccuracyandrepeatability.
disclaimer Every care has been taken to ensure the accuracy of information contained in this manual which supersedes earlier publications, however Bisalloy Steels® shall not be liable for any loss or damage howsoever caused or arising from the application of such information. Typical values are provided for reference information only and no guarantee is given that a specific plate will provide these properties. Specification correct at time of printing, however information is subject to change without notice.
registered trade Marks
Bisalloy Steels® Bisalloy® BIS® BISPLATE® are all registered trade marks of Bisalloy Steels Australia Pty Ltd. Print Date: October 2012
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For more information regarding BISPLATE® refer to the technical information pdf documents provided on the Bisalloy Steels® website at www.bisalloy.com.au
Bisalloy Steels Pty Ltd18 Resolution Drive, Unanderra PO Box 1246, Unanderra NSW, Australia, 2526
Ph: +61 2 4272 0444Fax: +61 2 4272 0456Email: bismail@bisalloy.com.auWeb: www.bisalloy.com.au
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