Submerged Arc Welding (SAW) Flashcards
SAW stands for?
Submerged arc welding sometimes called sub-arc
Describe and explain the principles of operation of saw
submerged arc welding is an arc welding process in which metals are joined using an electric arc established between a continuously fed bare metal consumable electrode or electrodes and the work. Shielding is provided by a granular, fusible Flux material usually brought to the work area using flux feed system
What positions can SAW be used in
Flat and horizontal
name four types of materials that saw can be used on
carbon alloy steels stainless steels and Nickel alloys
List the 7 basic equipment components required for saw
1 the weld power source provides welding current
2 the welding head assembly includes the wire feeder, torch assembly and travel carriage
3 the fixtures and positioners position the work pice for the welder
4 spooled filler wire provides filler metal for the weld
5 The flux provides shelving, shapes the beed and allows alloys to be added
6 The flux feed and recovery equipment conveys flux to the weld zone and collects unused flux
7 the work lead connection completes the welding current circuit to the work pice
What are the advantages of using a screw type work clamp
It minimizes heat build up
What types of output slope do saw power sources use
CC and CV
what duty cycle rating is recommended for most saw power sources
100%
Saw may be used in the semi-automatic operation modes
True
what is the advantage of using an ac power source for saw
it minimizes are blow with multiple wire set ups
what will usually result if the drive roll pressure is set to low
the wire electrode will slip and feed erratically
how will the arc react if the flux layer is to shallow
the weld will be flashing and will likely result in prosperity
which is helix
the space between two unrestrained loops of wire
What types of drive roll systems are normally used with SAW
knurled or v groove
What type of wire feed set up is used with cv power sources
constant speed
List the 6 main SAW operating Variables and there effects
1 Amperage controls penetration and rate of deposit
2 voltage affects arc length
3 travel speed affects the penetration and the weld beed profile
4 Electrode diameter has a direct effect on the weld beed shape and depth
5 Electrode extension affects rate of metal deposition and affects flux layer depth
6 width and depth of flux layer has influence on arc actions bead appearance and weld metal soundness
Interpret the AWS Classification for the F7AZ-ELI2K
1 designates as a flux 2 minimum tensile strength is megapascals x 10 000 psi ( 70 000 psi) 3 as- welded condition 4 no impact properties are specified 5 electrode 6 medium manganese content 7 nominal carbon content (0.12%) 8 made from fully killed steel
Interpret the CSA Classification for the F49AZ-EMI4K
1 designates as a flux 2 minimum tensile strength is megapascals x 10 ( 490 MaP) 3 as- welded condition 4 no impact properties are specified 5 electrode 6 medium manganese content 7 nominal carbon content (0.14%) 8 made from fully killed steel
Which type of Flux can be re-used
fused
Which type of saw flux is generally used for the addition of alloying elements
Active flux
