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Gas Tungsten Arc Welding of Plate

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Chapter 16 Gas Tungsten Arc Welding of Plate Objectives Name the applications for which the gas tungsten arc welding process is more commonly used Discuss the effects ... – PowerPoint PPT presentation

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Title: Gas Tungsten Arc Welding of Plate


1
Chapter 16
  • Gas Tungsten Arc Welding of Plate

2
Objectives
  • Name the applications for which the gas tungsten
    arc welding process is more commonly used
  • Discuss the effects on the weld of varying torch
    angles
  • Explain why the filler rod end must be kept
    inside the protective zone of the shielding gas
    and how to accomplish this
  • Tell how tungsten contamination occurs and what
    should be done when it happens

3
Objectives (cont'd.)
  • Explain what can cause the actual welding
    amperage to change
  • Determine the correct machine settings for the
    minimum and maximum welding current for the
    machine used, the types and sizes of tungsten,
    and the metal types and thicknesses
  • List factors that affect the gas preflow and
    postflow times required to protect the tungsten
    and the weld

4
Objectives (cont'd.)
  • Determine the minimum and maximum gas flow
    settings for each nozzle size, tungsten size, and
    amperage setting
  • Compare the characteristics of low carbon and
    mild steels, stainless steel, and aluminum in
    respect to GTA welding
  • Describe the metal preparation needed before GTA
    welding

5
Objectives (cont'd.)
  • Demonstrate how to properly make GTA welds in
    butt joints, lap joints, and tee joints in all
    positions that can pass the specified standard

6
Introduction
  • Gas tungsten arc welding
  • Also called GTA welding
  • Can be used to for nearly all types and
    thicknesses of metal
  • Fluxless, slagless, and smokeless
  • Welders have fine control of the welding process
  • Used when appearance is important
  • Setup of equipment affects weld quality
  • Charts give correct settings
  • Field conditions affect the variables

7
Torch Angle
  • Key points
  • Torch should be held as close to perpendicular as
    possible
  • May be angled zero to fifteen degrees from
    perpendicular for better visibility
  • As the gas flows out it must form a protective
    zone around the weld
  • Too much tilt distorts protective shielding gas
    zone
  • Velocity of shielding gas affects protective zone
    as torch angle changes

8
Filler Rod Manipulation
  • Filler rod must be kept inside the protective
    zone
  • If removed from the gas protection
  • Oxidizes rapidly oxide is added to weld pool
  • Rod tip becomes oxidized cut it off
  • Weld is temporarily stopped
  • Shielding gas must be kept flowing
  • Rod should enter shielding gas as close to base
    metal as possible
  • Angles under 15 degrees prevent air from being
    pulled in welding zone

9
FIGURE 16-2 The hot filler rod end is well within
the protective gas envelope. Larry Jeffus
10
FIGURE 16-5 Filler being remelted as the weld is
continued. Larry Jeffus
11
Tungsten Contamination
  • Most frequent problem
  • Tungsten becomes contaminated if it touches
    molten weld pool or filler metal
  • Surface tension pulls contamination up onto the
    hot tungsten
  • Extreme heat causes some of the metal to vaporize
    and form a large oxide layer

12
FIGURE 16-8 Contaminated tungsten. Larry Jeffus
13
Tungsten Contamination (cont'd.)
  • Contamination forms a weak weld
  • Weld and tungsten must be cleaned before any more
    welding can be done
  • Tiny tungsten particles will show up if the weld
    is X-rayed
  • Contamination can be knocked off quickly by
    flipping the torch head

14
FIGURE 16-8 Contaminated tungsten. Larry Jeffus
15
Current Setting
  • Amperage on machine's control is the same at the
    arc when
  • Power to machine is exactly correct
  • Lead length is very short
  • All cable connections are perfect
  • Arc length is exactly right
  • Remote current control is in full on position

16
Experiments
  • Designed to help new welders learn basic skills
  • Help troubleshoot welding problems
  • Learn more
  • Subtle changes will become more noticeable
  • Even experienced welders make changes

17
Figure 16-10 Melting first occurring. Larry
Jeffus
18
Gas Flow
  • Gas preflow and postflow times depend upon
  • Wind or draft speed
  • Nozzle size
  • Tungsten size
  • Amperage
  • Joint design
  • Welding position
  • Type of metal welded
  • Maximum flow rates must never be exceeded

19
Practice Welds
  • Grouped according to weld position and type of
    joint
  • Mild steel
  • Inexpensive
  • Requires the least amount of cleaning
  • Aluminum
  • Cleanliness is a critical factor
  • Try each weld with each metal
  • Determine which metal will be easier to master

20
Low Carbon and Mild Steels
  • Two basic steel classifications
  • Most common
  • During manufacturing small pockets of primary
    carbon dioxide gas become trapped
  • Do not affect strength
  • Porosity likely when not using a filler metal
  • Most filler metals have some alloys (i.e.,
    deoxidizers)
  • Prevent porosity caused by gases trapped in base
    metal

21
Stainless Steel
  • Setup and manipulation
  • Nearly the same as for low carbon and mild
    steels
  • Welds show effects of contamination
  • Precleaning is important
  • Most common problem
  • Bead color after the weld
  • Using a low arc current with faster travel speeds
    is important
  • Carbide precipitation

22
Aluminum
  • Molten aluminum weld pool
  • High surface tension
  • Preheat base metal in thick sections
  • Preheat temperature is around 300 degrees
    Fahrenheit
  • Cleaning and keeping the metal clean
  • Time consuming
  • Aluminum resists oxidation at room temperature
  • Rapidly oxidizes at welding temperatures

23
FIGURE 16-15 Aluminum filler being correctly
added to the molten weld pool. Larry Jeffus
24
Metal Preparation
  • Base and filler metals
  • Must be thoroughly cleaned
  • Contamination will be deposited into the weld
  • Oxides, oil, and dirt are the most common
  • Contaminants can be removed mechanically or
    chemically

25
Summary
  • Position yourself to control the electrode filler
    metal and to see the joint
  • Experienced welders realize they need to see only
    the leading edge of the weld pool
  • Good idea to gradually reduce your need for
    seeing 100 of the weld pool
  • Increasing this skill is significant advantage
  • Welding in the field
  • May have to be done out of position
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