AD welds slides
Trang 1Welding of Dissimilar Metals
Most of the welds are between dissimilar metals
Same General Type with two different sources
Same General Type but at two extreme ends of specification
Joining of two completely different materials
Successful weld between dissimilar metals
At-least as strong as the weaker of two metals being joined
Often considered weaker than both
Properties vary across the weld – variation is much more than conventional welds
Lack of overall ductility occurs when one is significantly weaker than the other
Prequalification – A necessary requirement
Trang 2Welding of Dissimilar Metals
Possible Type of JointsMost of the welds are between dissimilar metals
Non-Fusion Joints – Simplest Case
Adhesives / Bolting
Brazing and Soldering – Generally considered non-fusion Joints
Brazing – some metallurgical interaction, conductivity, expansion and corrosion
Fusion Joints – A Range of controlling Factors
1 Melting Temperatures 4 Pre & Post Heating
2 Expansion 5 Choice of Welding Processes
3 Thermal Conductivity 6 Weld Pool Properties
Trang 3Welding of Dissimilar Metals
Fusion Joints – Controlling Factors
1 Melting Temperatures
i When subject to same heat source, one will be melted before the
other
ii When significant difference, one will form larger part of weld pool iii Probability of hot tears in low melting point alloy
iv Solution – When there is a wide difference, it may become
necessary to include a material with intermediate melting temperature (usually a brazing alloy) i.e buttering
2 Expansion (Coefficient of thermal expansion)
1 When widely different, thermal stresses will be setup which may
lead to
Cracking during cooling or during service.
Distortion
Fatigue failure in components subject to thermal cycling (e.g CrMo Steels and SS304/316 in steam service)
See Example
Trang 4Welding of Dissimilar Metals
Fusion Joints – Controlling Factors
3 Thermal Conductivity
i When widely different one can become highly heated, leading to
distortion
ii Thermal conductivity changes with temperature It rises for some,
decreases for others
iii Solution 1: Direct the heat source
iv Solution 2: Where distortion is critical, it may require heat input or
extraction
4 Pre and Post Heating
i Pre-heating is usually not much of a problem
ii Post-heating (heat treatment) can cause problems (CS-SS304
Joints) iii Two different age hardening alloys can have different ageing
temperatures
Trang 5Welding of Dissimilar Metals
Fusion Joints – Controlling Factors
5 Choice of Welding Process
i Precise location of arc to alloy differential Heat Transfer
6 Weld Pool Properties
i Metal Mixing
ii Dilution Calculations iii Microstructure Determination
iv Microstructure Stability
v Corrosion
vi Magnetic Effects
Trang 6Welding of Dissimilar Metals
Joint Design
1 Selection of a correct filler – eventual joint serviceability
2 Many Dissimilar metals are associated with Stainless Steels
3 Use of Schaeffler Diagram
QUESTION
A low alloy creep resisting steel (C: 0.2%: Mn:0.6%;Cr:0.25%;
Mo: 0.8%;Si:0.2%) has been welded to a 304L type stainless steel (C:0.03%; Cr:17.2%;Mn:1.65%; Ni:11.9; Si:0.6) using a 309 type consumable (C:0.05%;
Mn:1.50%; Cr:23.2%; Ni: 13.48%; Si: 0.48%) The proportion of each material in the weld pool is estimated as:Creep Resisting Steel: 25% 304L type stainless steel: 25% 309 consumable: 50% Calculate the probable
composition of the weld metal, and determine from the Schaeffler diagram shown what microstructural
constituents are predicted in the weld.
Trang 7Welding of Dissimilar Metals
Trang 8Welding of Dissimilar Metals