Transcript
WELDING OF BISPLATE® QUENCHED AND TEMPERED STEELS GENERAL INFORMA INFORMATION TION
All grades of BISPLATE BISPLATE® can be readily welded using any of the conventional low hydrogen welding processes. Their low carbon content and carefully balanced, but relatively small additions of alloying elements (Mn, Cr, Mo, Ni, B) ensures good weldability, weldability, in addition to the advantages of high strength, impact toughness and high hardness. HYDROGEN CONTROL
To ensure adequate welding of BISPLATE®, it is necessary to be more mindful of the levels of hydrogen, preheat preheat temperatures and arc energy inputs in order to minimise the hardening and maintain the properties of the weld Heat Affected Zone (HAZ). Particular attention must be paid to the control of hydrogen content to minimise the risk of weld and HAZ cracking. Weld hydrogen hydrogen content is minimised by careful attention to the cleanliness and dryness of the joint preparations and the use of hydrogen controlled welding consumables. Recommendations on the correct storage and handling of consumables may be obtained from welding consumable manufacturers, for instance the use of “Hot Boxes” for storage and reconditioning are required when using manual metal arc welding electrodes. Refer WTIA Tech Tech Note 3 for further guidance. HEAT HEA T AFFECTED ZONE PROPERTY CONTROL
The HAZ, a region directly adjacent to the weld, experiences a thermal cycle ranging from unaffected parent plate to near melting at the fusion boundary. boundary. The properties of this zone are determined by the steel composition as well as the cooling rate.
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E T A L P S I B G N I D L E W
STEEL COMPOSITION
BISPLATE ® grades and chemical compositions may be divided into categories based on Carbon Equivalent and CET as follows: Table 1:
Notes: 1. 2.
BISPLATE ® GRADE
PLATE THICKNESS (mm)
CARBON EQUIVALENT (IIW) TYPICAL AVERAGE
CET TYPICAL AVERAGE
5 - 12
0.40
0.29
0.50
0.35
0.34
450
6 - 20 25 - 50
0.46
0.30 0.36
500
0.62
0.42
C.E. (IIW) = C + Mn + Cr + Mo + V + Cu + Ni 6 5 15 CET = C + Mn + Mo + Cr + Cu + Ni 10 20 40 These categories give an indication of the degree of care required in the proper selection of welding preheat/heat inputs.
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COOLING RATE
Limitations on both preheat and heat input are necessary to ensure that the HAZ cools at an appropriate rate and that the correct hardness and microstructure are achieved. Too slow a cooling rate can result in a soft HAZ and thus a loss of tensile and fracture toughness properties. Too rapid a cooling rate produces a hard HAZ which may cause loss of ductility. Cooling PREHEAT/HEAT INPUT
The preheat/heat input recommendations outlined in tables 2 and 3 will ensure that the cooling rate of the HAZ is satisfactory.
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RECOMMENDED PREHEAT/INTERPASS TEMPERATURES (°C) FOR BISPLATE®
Table 2: 1 + t2 + t3 ) MM BISPLATE® GRADE <30
>40<50
Minimum Preheat Temp°C High Strength Structural Grades 60 (AS 3597 Grade 500)
50
50
75
140
70 (AS 3597 Grade 600)
50
50
75
140
50
50
75
140
Minimum Preheat Temp°C Abrasion Resistant Grades 320
75
75
125
150
400
75
75
125
150
450
100
500
100
150
150
150
150
150
175
200
220
500 Grade
150
175
175
200
220
Maximum Interpass TempºC
® for availability, preheat/interpass requirements. Note that under rigid weld joint restraint or high ambient humidity conditions preheating temperature should be increased by 25ºC.
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PERMISSIBLE HEAT INPUT (KJ/MM) FOR BISPLATE®
Table 3: 1 + t2 + t3 ) mm
WELDING PROCESS
>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
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
Travel Speed (mm/minute)
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WELDING BISPLATE® WELDING CONSUMABLE SELECTION GUIDE FOR BISPLATE® (AS CLASSIFICATIONS)
Table 4a: BISPLATE® 60
BISPLATE® 70
BISPLATE ®
BISPLATE ® 320, 400, 450, 500
E55XX/E62XX+ N.R.
E55XX N.R.
E76XX E55XX/E62XX N.R.
N.R. E55XX
Matching Lower Lower Matching
W55XX/W62XX+ W50XX W50XX N.R.
W55XX W50XX N.R.
W76XX W62XX/W69XX W55XX.X N.R.
N.R. W55XX W50XX
Matching Lower Lower Matching
W55XX.X/W62XX.X+ W50XX.X W50XX.X N.R.
W62XX.X W55XX.X N.R.
W76XX.X W62XX.X W55XX.X N.R.
N.R. W55XX.X W50XX.X
Matching Lower Lower Matching
W55XX/W62XX+ W50XX W40XX N.R.
W50XX W40XX N.R.
W76XX W50XX W40XX N.R.
N.R. W50XX W40XX
MMAW Consummables1 Warning: Only use Hydrogen Controlled consumables Strength Level
Hardness GMAW Consumables2 Strength Level
Hardness FCAW Consumables3 Strength Level
Hardness SAW Consumables4 Strength Level
Hardness
Matching Lower Lower Matching
Table 4a courtesy of WTIA (Tech Note 15)
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Notes: X = A Variable - any value allowed by the relevant standard may be acceptable provided that the consumable is hydrogen controlled (ie low hydrogen). + E62XX and W62XX type consumables overmatch the strength requirements but may be used. otherwise use E76XX or W76XX types. N.R. – Not Recommended.
E T A L P S I B G N I D L E W
WELDING CONSUMABLE SELECTION GUIDE FOR BISPLATE® (AWS CLASSIFICATIONS)
Table 4b: BISPLATE® 60
BISPLATE® 70
BISPLATE ®
BISPLATE ® 320, 400, 450, 500
+ E70XX E70XX N.R.
E70XX N.R.
E110XX E70XX N.R.
N.R. E70XX
MMAW Consummables1 Warning: Only use Hydrogen Controlled consumables Strength Level
Hardness GMAW Consumables2 Strength Level
Hardness FCAW Consumables3 Strength Level
Hardness SAW Consumables4 Strength Level
Hardness
Matching Lower Lower Matching
Matching Lower Lower Matching
Matching Lower Lower Matching
Matching Lower Lower Matching
+ ER70S-X ER70S-X N.R. + E7XTX-X E7XTX-X N.R.
Table 4b courtesy of WTIA (Tech Note 15)
+ F7XX F6XX N.R.
ER70S-X N.R.
ER110S-X ER90S-X/ER100S-X N.R.
E9XTX-X N.R.
E11XTX-X E9XTX-X N.R.
F7XX F6XX N.R.
F11XX F7XX F6XX N.R.
N.R. ER70S-X
N.R. E7XTX-X N.R. F7XX F6XX
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Notes: X = A Variable - any value allowed by the relevant standard may be acceptable provided that the consumable is hydrogen controlled (ie low hydrogen). + E90XX, ER90S, E9XTX and F9XX type consumables overmatch the strength requirements but may be used. substituted, otherwise use E110XX, ER110S, E11XTX or F11XX types. N.R. – Not Recommended. MANUFACTURERS’ WELDING CONSUMABLES
Welding Consumables suitable for matching strength, lower strength and matching hardness are readily available from a
E T A L P S I B G N I D L E W
WELDING CONSUMABLES FOR MANUAL METAL ARC WELDING (MMAW)
Table 5: BISPLATE® 60
BISPLATE® 70
BISPLATE®
BISPLATE ® 320, 400, 450, 500
M.S.
Alloycraft 90
Alloycraft 90 (under) Alloycraft 110 (over)
Alloycraft 110
N.R.
L.S.
Ferrocraft 61 Ferrocraft 16 Twincoat
Ferrocraft 61 Ferrocraft 16 Twincoat
Ferrocraft 61 Ferrocraft 16 Twincoat
Ferrocraft 61 Ferrocraft 16 Twincoat
M.H.
N.R.
N.R.
N.R.
Cobalarc 350, 650, 750
M.S.
SL 20G
N.R.
L.S.
Conarc 49C
Conarc 49C
Conarc 49C
Conarc 49C
M.H.
N.R.
N.R.
N.R.
N.R.
M.S.
N.R.
N.R.
L.S.
Austarc 77
Austarc 77
N.R.
Austarc 77
M.H.
N.R.
N.R.
N.R.
Abraso Cord 350, 700
M.S.
N.R.
L.S.
MP51
MP51
MP51
MP51
M.H.
N.R.
N.R.
N.R.
Methard 350, Methard 650
M.S.
N.A.
N.A.
N.A.
N.R.
L.S.
M.H.
N.R.
N.R.
N.R.
N.R.
M.S.
OK 74.70
OK 75.75
L.S.
M.H.
N.R.
N.R.
N.R.
BRANDS CIGWELD
Lincoln Electric
W.I.A
SWP/Metrode Products
Eutectic Castolin
ESAB
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M.S. – Matching Strength L.S. – Lower Strength M.H. – Matching hardness N.R. – Not Recommended N.A. – Not available N.B. – Consumables in brackets will match mechanical property requirements in the majority of instances as per should be carried out to establish actual Weld metal properties.
E T A L P S I B G N I D L E W
WELDING CONSUMABLES FOR GAS METAL ARC WELDING (GMAW)
Table 6: BISPLATE® 60
BISPLATE® 70
BISPLATE®
BISPLATE ® 320, 400, 450, 500
M.S.
Autocraft MnMo
Autocraft MnMo (Under) or Autocraft NiCrMo (Over)
Autocraft NiCrMo
N.R.
BRANDS CIGWELD/STOODY
Contact Bisalloy or Thermadyne for shielding gas information
L.S.
Autocraft LW1 or Autocraft LW1-6
Autocraft LW1 or Autocraft LW1-6
Autocraft LW1 or Autocraft LW1-6
Autocraft LW1 or Autocraft LW1-6
M.H.
N.R.
N.R.
N.R.
Autocraft HF650
Lincoln
M.S.
N.R.
SuperAcr LA100
N.R.
L.S.
UltraMag S4
UltraMag S4
UltraMag S4
UltraMag S4
M.H.
N.R.
N.R.
N.R.
N.R.
M.S.
Austmig ESD2/CO2 or Mixed Gas
Austmig NiCrMo
Austmig NiCrMo
N.R.
L.S.
Austmig ES6/CO2 or Mixed Gas
Austmig ES6/CO2 or Mixed Gas
Austmig ES6/CO2 or Mixed Gas
Austmig ES6/CO2 or Mixed Gas
W.I.A
Eutectic Castolin
M.H.
N.A.
N.A.
N.A.
TD600/CO2 or Mixed gas
M.S.
AN45252/ CO2 or Mixed Gas
AN45252/ CO2 or Mixed Gas
AN45252/ CO2 or Mixed Gas
N.R.
2 or Mixed Gas
2 or Mixed Gas
2 or Mixed Gas
2 or Mixed Gas
M.S.
OK AristoRod 13.09 Mixed Gas
OK AristoRod 55 Mixed Gas
OK AristoRod 69 Mixed Gas
L.S.
OK AristoRod 12.50 CO2 or Mixed Gas
OK AristoRod 12.50 CO2 or Mixed Gas
OK AristoRod 12.50 CO2 or Mixed Gas
M.H.
N.R.
N.R.
N.R.
L.S. ESAB
OK AutoRod 13.90 (50-60HRC)
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M.S. – Matching Strength L.S. – Lower Strength M.H. – Matching hardness N.R. – Not Recommended N.A. – Not available N.B. – Consumables in brackets will match mechanical property requirements in the majority of instances as per should be carried out to establish actual Weld metal properties.
E T A L P S I B G N I D L E W
WELDING CONSUMABLES FOR FLUX CORED ARC WELDING (FCAW)
Table 7: BISPLATE® 60
BISPLATE® 70
BISPLATE®
BISPLATE ® 320, 400, 450, 500
M.S. Seamless
Verticor 91K2 H4
Verticor 91K2 H4 (Under) or Tensicor 110TXP H4 (Over)
Tensicor 110TXP H4 (Over)
N.R.
L.S. Seamless (E6XT-X)
Verticor XP LT H4
Verticor XP LT H4
Verticor XP LT H4
Verticor XP LT H4
L.S. Seamless
Verticor 3XPH4 or Verticor 5XP or Metalcor 5 H4 or
Verticor 3XPH4 or Verticor 5XP or Metalcor 5 H4 or
Verticor 3XPH4 or Verticor 5XP or Metalcor 5 H4 or
Verticor 3XPH4 or Verticor 5XP or Metalcor 5 H4 or
L.S. Seamed
Verticor 3XP or Suprecor 5 or Metalcor XP or
Verticor 3XP or Suprecor 5 or Metalcor XP or
Verticor 3XP or Suprecor 5 or Metalcor XP or
Verticor 3XP or Suprecor 5 or Metalcor XP or
L.S. Self Shielded
M.H.
N.R.
N.R.
N.R.
Stoody Super Build-Up or Stoody 965-G or Stoody 965 AP-G
M.S.
Outershield 91Ni1-HSR/20-H
Outershield 20-H
Outershield 690-H
N.R. Innershield NR232, NR233, NS3M Lincore 36LS, Lincore 33, Lincore 55-G
BRANDS CIGWELD/ STOODY
Contact Bisalloy or Thermadyne for shielding gas information
Lincoln
Innershield NR232, NR233, NS3M
Innershield NR232, NR233, NS3M
Innershield NR232, NR233, NS3M
M.H.
N.R.
N.R.
N.R.
M.S.
TM-71 HYD/CO2 2 or mixed gas
FabCO 110K3M/mixed gas
FabCO 110K3M/mixed gas
N.R.
L.S.
W.I.A/Hobart Brothers
L.S.
2 Formula XL-525/mixed gas 2 or mixed gas
TM-991K2/CO2 or mixed gas TM-71 HYD/CO2 2 or mixed gas
TM-991K2/CO2 or mixed gas TM-71 HYD/CO2 2 or mixed gas
mixed gas HYD/CO2 2 or mixed gas Formula XL-525/mixed gas 2 or mixed gas
M.H.
NR
NR
NR
Vertiwear 600/mixed gas
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Table 7 continued: BISPLATE® 60
BISPLATE® 70
BISPLATE®
BISPLATE ® 320, 400, 450, 500
M.S.
N.A.
N.A.
N.A.
N.A.
BRANDS Eutectic Castolin SWP/ Metrode ESAB
L.S.
Teromatec OA2020
Teromatec OA2020
Teromatec OA2020
Teromatec OA2020
M.H.
N.R.
N.R.
N.R.
N.R.
M.S.
N.A.
N.A.
N.A.
N.A.
L.S.
Dualshield T-100 CO2 Shielding Gas or Dualshield 7100 Ultra Mixed Gas
Dualshield T-115 CO2 or Mixed Gas or Dualshield 7100 Ultra Mixed Gas
M.H.
N.R.
N.R.
N.R.
OK Tubrodur 15.40 (30-40HRC) CO 2 OK Tubrodur 15.52 (55-60 HRC) CO2 or Self Shielded
M.S. – Matching Strength L.S. – Lower Strength M.H. – Matching Hardness N.R. – Not Recommended N.A. – Not Available N.B. – Consumables in brackets will match mechanical property requirements in the majority of instances as per should be carried out to establish actual Weld metal properties.
E T A L P S I B G N I D L E W
WELDING CONSUMABLES FOR SUBMERGED ARC WELDING (SAW)
BISPLATE® 60
BISPLATE® 70
BISPLATE®
BISPLATE ® 320, 400, 450, 500
M.S.
N.A.
Autocraft NiCrMo (Over)/ Satinarc 4
Autocraft NiCrMo (Over)/ Satinarc 4
N.R.
L.S.
Autocraft SA1or SA2/ Satinarc 4 or 15
Autocraft SA1or SA2/ Satinarc 4 or 15
Autocraft SA1or SA2/ Satinarc 4 or 15
Autocraft SA1or SA2/ Satinarc 4 or 15
M.H.
N.R.
N.R.
N.R.
Stoody 107/Stoody S Flux
M.S.
N.R.
L.S.
M.H.
N.R.
N.R.
N.R.
Lincore 30-S, Lincore 40-S
M.S.
OK Tubrod 15.24S+OK 10.62
OK Tubrod 13.43+OK 10.62
OK Tubrod 15.27S+OK 10.62
N.A.
L.S.
OK 12.22/OK 10.71
OK 12.22/OK 10.71
OK 12.22/OK 10.71
N.A.
M.H.
N.A.
N.A.
N.A.
N.A.
BRANDS CIGWELD
Lincoln
ESAB
M.S. – Matching Strength L.S. – Lower Strength M.H. – Matching Hardness N.R. – Not Recommended N.A. Not available N.B. – Consumables in brackets will match mechanical property requirements in the majority of instances as per should be carried out to establish actual Weld metal properties. At the time of printing all consumables listed were current/accurate but consult consumable manufacturer for up to date information.
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WELDING PROCEDURES
choice of consumables, total weld heat input, level of restraint, weld geometry and proximity of adjacent welds. ARC STRIKES
Arc strikes outside the welded zone can result in cracks, particularly on dynamically loaded structures. All strikes should be made within the joint preparation. TACK WELDING
Tack welds require special care due to the abnormal stresses and high cooling rates experienced by the adjacent material. The same preheat, heat input requirements should be employed and lower strength welding consumables considered. FILLET WELDING
the joined pieces. Lower strength consumables are suggested when design p ermits.
E T A L P S I B G N I D L E W
REPAIR WORK
It is good practice to weld repair with lower strength consumables (low hydrogen type), since plate materials which have been highly stressed in service may tend to warp or distort slightly during welding and improved ductility may be required. In some situations, such as joints under restraint, joints subjected to impact/fatigue stresses, etc, special welding consumables may be necessary. WELDING STRESSES
It should be emphasised that the recommended values of preheat and heat input are based on low to moderate levels of restraint. For conditions of high restraint it is important to minimise the degree to which free contraction is hampered and important in high restraint situations and it is advisable to establish welding parameters with simulated full scale weld tests. Care should also be exercised at the assembly stage to avoid offset and angular distortion at the plate edge, undercutting and bad appearance. STRESS RELIEF
Stress relief may be conducted on BISPLATE® to comply with AS1210 in the case of road tankers). Stress relief is recommended within a 540 - 570°C temperature range for one hour per 25mm of thickness. Thermal cycling is generally performed in accordance with AS 1210 Code requirements for Q and T steels. The toes of weld beads should be dressed by grinding prior to any stress relief treatment in order to prevent stress relief cracking. When stress relieving BISPLATE® it is recommended to weld with minimum permissible preheat/ interpass temperatures (Table 2) and heat input (Table 3) conditions to minimise the degree of softening or any loss of strength which may occur in the HAZ. Consult Bisalloy Steels® for further information if required.
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POST-WELD HEATING
Post-weld heating at 200-250°C may be conducted as an effective hydrogen dissolution treatment particularly when consumables other than H5 or H10 are used. HELPFUL HINTS
General rules for good quality welding of BISPLATE®: recommendations, or WTIA Tech. Note 3 REFERENCES/FURTHER READING
E T A L P S I B G N I D L E W