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Uncoated Plain Carbon Steel Process Variables
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Uncoated Steel – Process Variables Lesson Objectives When you finish this lesson you will understand: the effect that various welding parameter variables have on the weld quality of uncoated steels Learning Activities 1.Look up Keywords 2.View Slides; 3.Read Notes, 4.Listen to lecture 5.Do on-line workbook Keywords Weld Current Type, Heating Efficiency, Current Density, Weld Time, Hold Time, Pulsing, Electrode Force
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Process Variables Process Parameters: (Manufacturer’s Control) Weld Current Type Weld Time Hold Time Pulsing Electrode Force Electrode Material Electrode Designs Electrode Cooling Postweld Temper Material Parameters: (Steel Company Control) Chemistry Cleanliness Surface Condition Material Processing Thickness
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Welding Cycle Electrode Force Welding Current Welding Cycle Squeeze TimeWeld Time Hold Time Off Time [Reference: Welding Handbook, Volume 2, p.538, AWS]
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Nugget Diameter vs. Weld Current Expulsion Small Nuggets Acceptable Nuggets Minimum Nugget Diameter Weld Current Nugget Diameter
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Process Variables Process Parameters: (Manufacturer’s Control) Weld Current Type Weld Time Hold Time Pulsing Electrode Force Electrode Material Electrode Designs Electrode Cooling Postweld Temper Material Parameters: (Steel Company Control) Chemistry Cleanliness Surface Condition Material Processing Thickness
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Three Factors Responsible for AC Secondary Current Fluctuations Fluctuation in Supply Voltage Geometry of Throat Magnetic Material in Throat DC not Significantly Affected
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Steel is Ferromagnetic High Impedance Low Impedance
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Current Density Electrode Mushrooming Shunting Effect
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Effect of Current on Spot Weld Shear Strength Shear Strength Current Expulsion Begins [Reference: Welding Handbook, Volume 2, p.535, AWS]
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Turn to the person sitting next to you and discuss (1 min.): The ferromagnetic properties of steel effect the power factor of an AC welder when this material is concentrated within the throat. Will the same effects occur in DC current? Why or why not?
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Process Variables Process Parameters: (Manufacturer’s Control) Weld Current Type Weld Time Hold Time Pulsing Electrode Force Electrode Material Electrode Designs Electrode Cooling Postweld Temper Material Parameters: (Steel Company Control) Chemistry Cleanliness Surface Condition Material Processing Thickness
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Nugget Area vs. Weld Time 0.041” Bare & Galvanized Steel Weld Time, cycles Nugget Diameter, inches [Reference: Welding in the Automotive Industry, p.175, D. W. Dickinson ]
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Tensile-Shear Strength vs. Weld Time Weld Time Shear Strength Optimum [Reference: Welding Handbook, Volume 2, p.535, AWS]
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Effect of Weld Time on Heat Input Low Current Long Time High Current Short Time Weld Time Nugget Diameter Weld Time Total Energy Input Minimum (a) (b) Steady State High Heat Input
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Effect of Weld Time on Current Range (Weld Lobe)
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Effect of Weld Time on Electrode Life High Current Short Time Low Current Long Time The Best Condition is Usually the One That Minimizes the Integrated Time at Temperature without exceeding Tip Softening Temperature
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Effect of Weld Time on Softening Recovery Annealed Steels
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Turn to the person sitting next to you and discuss (1 min.): We have already seen that weld time can effect the HAZ properties of Recovery Annealed Steels. Would you expect increased weld time to have any effect on the properties of HSLA or Dual Phase steels?
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Process Variables Process Parameters: (Manufacturer’s Control) Weld Current Type Weld Time Hold Time Pulsing Electrode Force Electrode Material Electrode Designs Electrode Cooling Postweld Temper Material Parameters: (Steel Company Control) Chemistry Cleanliness Surface Condition Material Processing Thickness
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Hold Time Sensitivity Disadvantageous stress state (Yielding Tri-axial Condition at Peeled Edge) Presence of preferential crack paths (porosity) (Porosity Along Dendrite/Cell Boundaries - Low Melting Eutectics) Susceptible microstructure (Hard Brittle Martensites - Sensitive to Cleavage Fracture) Gould, Fracture Morphologies of RSW Exhibiting Hold Time, SMWC VIII, AWS, 1998 Normal hold time Long hold time Interfacial Failures
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Effect of Hold Time 0 10 20 30 40 50 60 70 80 Hold Time, Cycles 500 400 300 200 6 5 4 3 Max. Tensile-Shear Load, x 10 3 lbs Weld Hardness, Vickers Peel Test Fracture Mode Interfacial Failure Nugget Pull Out [Reference: Welding in the Automotive Industry, p.193, D. W. Dickinson]
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Rephosphorized Steels have low melting Eutectics and Form Porosity at Dendrite & Cell Boundaries & Weld Centerline Gould, Fracture Morphologies of RSW Exhibiting Hold Time, SMWC VIII, AWS, 1998
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Gould, Fracture Morphologies of RSW Exhibiting Hold Time, SMWC VIII, AWS, 1998 Higher Carbon Material With Faster Cooling Produce Harder Martensite With Cleavage Failure Mode
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Weld-Metal Microstructures of Plain Carbon and Rephosphorized Steels for Different Hold Times 0.07C, 10 Cycle Hold0.07C, 30 Cycle Hold 0.06C-0.09P, 10 Cycle Hold 0.06C-0.09P, 30 Cycle Hold [Reference: “Spot Weldability of High-Strength Sheet Steels”, Welding Journal 59 (January 1980), Baker & Sawhill] Some Pro-Eutectoid Ferrite Mostly Martensite
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Effect of Hold Time on Lobe Curve
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Process Variables Process Parameters: (Manufacturer’s Control) Weld Current Type Weld Time Hold Time Pulsing Electrode Force Electrode Material Electrode Designs Electrode Cooling Postweld Temper Material Parameters: (Steel Company Control) Chemistry Cleanliness Surface Condition Material Processing Thickness
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Pulsing Cool Time Pulse 1Pulse 2Pulse 3 Pulse Time
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Without PulsingWith Pulsing Heating At Electrode Tip Skidding Electrode Mushrooming Tip Cooling Between Pulses
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Turn to the person sitting next to you and discuss (1 min.): Pulsing cycles of 3 or 4 cycles current flow followed by 1 or 2 cycles off are very effective when welding steels to allow the electrodes to cool while not seriously effecting the steel nugget growth. Would this be an effective procedure for aluminum alloys? Why or why not?
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Process Variables Process Parameters: (Manufacturer’s Control) Weld Current Type Weld Time Hold Time Pulsing Electrode Force Electrode Material Electrode Designs Electrode Cooling Postweld Temper Material Parameters: (Steel Company Control) Chemistry Cleanliness Surface Condition Material Processing Thickness
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Surface Condition Steel Oils/Dirt Oxide Oils/Dirt (a) Pickled Conditions (b) Rusted Conditions Rusty Pickled Polished Electrode Force Resistivity
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Resistance Varies with Pressure Low Pressure Medium Pressure High Pressure (a) (b) (c)
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Relation of Electrode Force to Contact Resistance Resistance Greatly Dependent on Electrode Force Resistance Nearly Independent on Electrode Force FF FF Electrode Force (Linear Scale) Contact Resistance (Log Scale) R2R2 R1R1
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Welding Force Surface Breakthrough Asperity Collapse Wire Brushed Pickled Electrode Force, lbs 1200 1400 1600 1800 2000 2400 2800 2400 2000 1600 1200 800 400 Resistance, Micro-ohms [Reference: Welding in the Automotive Industry, p.139, D. W. Dickinson]
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Effect of Electrode Force on Nugget Diameter Modified Electrode Truncated Cone Constant Weld Current Density Nugget Diameter Electrode Face Diameter 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 5 10 15 20 25 30 Electrode Force, kg/mm 2
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Very High Force Lobe moves to Higher Current Longer Times
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Weld Force Effect on Current Range Current, kA Weld Force, lbs [Reference: “Forms of Dynamic Resistance Curves Generated During Resistance Spot Welding”, Watney & Nagel] Low Force Higher Force
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Electrode Force Buildup with Time Time Electrode Force Time Adequate Squeeze Time Welding Current Initiated Adequate Squeeze Time Before Current Initiation Premature Initiation of Current Thermal Expansion & Contraction at Interfaces
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Turn to the person sitting next to you and discuss (1 min.): Several companies are developing in the electrode real time force sensing devices. Do you think they will be able to use these to determine spot weld quality? Develop feedback control? What problems might they have when welding steel?
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