friction stir welding of stainless steels
TRANSCRIPT
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FSW ofStainless Steel
TERM PROJECT PRESENTATION: MEL 231
(CASTING AND WELDING)
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A Primer on FSW
SECTION 1
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Relevance Today
Helping create cutting edge devices.
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Friction Stir Welding : Friction at work
“Friction-stir welding (FSW) is a solid-state joining process (the metal is not melted) and is used when the original metal characteristics must remain unchanged as much as possible.”
- Wikipedia
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5The Process
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6The Process A rotating non-consumable cylindrical
shouldered tool with a profiled pin penetrates the material and generates frictional heat, softening the material without reaching the melting point and enabling the weld.
The parts have to be securely clamped to prevent the joint faces from being forced apart
The plasticised material, transferred to the trailing edge of the tool pin, is forged through intimate contact with the tool shoulder and pin profile. On cooling, a solid phase bond is created between the work-pieces.
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The two surfaces to be joined are
prepares
A rotating non-consumable
cylindrical tool penetrates the
material
The two surfaces are joined due to
the frictional heat. The heat, though is
not sufficient for melting
The Process
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8Process Parameters
The heat generated in the joint area takes it to typically about 80-90% of the melting temperature.
The heat input is purely mechanical and includes force, friction, and rotation.
A simplified model to identify the way heat is generated and transferred to the joint area is described in the following equation:
Q = µωFK in which the heat (Q) is the result of friction (μ), tool rotation speed (ω) down force (F) and a tool geometry constant (K).
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9Process Parameters
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10Process Parameters
Tool rotation and traverse speeds
There are two tool speeds to be considered in friction-stir welding; how fast the tool rotates and how quickly it traverses the interface. These two parameters have considerable importance and must be chosen with care to ensure a successful and efficient welding cycle.
Tool Tilt
Tilting the tool by 2–4 degrees, such that the rear of the tool is lower than the front, has been found to assist this forging process. It affects the bead characteristics and the appearance of the weld.
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11Process Parameters
DownForce / Plunge Depth
The plunge depth is defined as the depth of the lowest point of the shoulder below the surface of the welded plate and has been found to be a critical parameter for ensuring weld quality. The plunge depth needs to be correctly set, both to ensure the necessary downward pressure is achieved and to ensure that the tool fully penetrates the weld.
Tool design
The design of the tool is a critical factor as a good tool can improve both the quality of the weld and the maximum possible welding speed. It is desirable that the tool material is sufficiently strong, tough, and hard wearing at the welding temperature.
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12Tools
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13Why FSW?
Source: Friction stir welding and processing R.S. Mishraa,, Z.Y. Mab
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14Applications In terms of high-temperature materials, FSW has been proven
successful on numerous of alloys and materials, including high-strength steels, stainless steel and titanium. Yet, main applications of FSW remain limited to Aluminium
The level of activity in research on the FSW of steels is dwarfed when compared with that on aluminium alloys. There are good reasons for this. The relative weakness of aluminium makes it ideally suited for a process which requires, at high strain rates, the permanent flow and mixing of material without melting. In contrast, there are in general no cost effective tools available for steel.
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Challenges to FSWof Stainless Steels
SECTION 2
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16Challenges to FSW of SS
FSW of Stainless steel 304 had not been progressing as rapidly as for aluminium and other metals because of various reasons some of which are given below:
The material from which the tool is made has to survive much more strenuous conditions because of strength of steel and high softening temperature of steels.
The consequences of phase transformations accompanying FSW have not been studied in sufficient depth.
The variety of steels available is much larger than for any other alloy system, requiring considerable experiments to optimize the weld for a required set of properties
Cost Competitiveness
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The wearing out of the Tool after welding
One of the biggest problems with FSW, effects of steel added: The tool is expected to wear out quite frequently and with steel the effects become more and more pronounced.
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Source: Critical assessment: friction stir welding of steels H. K. D. H. Bhadeshia and T. DebRoy
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The variety of steels available is much larger than for any other alloy system, requiring considerable experiments to optimize the weld for a required set of properties.
There is a variety of steels which are commercially used for different applications. They have very different properties due to different microstructures and compositions. Therefore, it becomes imperative to carry out comprehensive studies on majority if not all of steels before it gets adopted by the industry.
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20Cost Competitiveness
The existing fusion welding processes of steels are quite cost effective, making it difficult to justify the relatively high cost of FSW.
For instance, The cost of making actual spot welds in the production of automobiles is a few cents of a dollar and this is the level that friction stir spot welding would have to compete with, unless there are particular difficulties with specific steels.
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So how do we do the FSWin stainless steels?
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FSW in StainlessSteel
SECTION 3
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23Addressing the concerns in FSW for Stainless Steels
1. Tool Material 2. Phase Effects3. Analysis of Joint
An ideal tool would be:
Strong enough even at high temperatures
Wear Resistant to bear brushing up a steel durably
Cheap enough for mass production
Available options:
Diamond
PCBN (Boron Nitride)
Arbitrary heating and cooling of steel is well known to produce a lot of undesirable effects in ferrous alloys.
So studying the effects of stir welding owing to it’s peculiar temperature range on the overall strength of a material like steel gains importance.
Finally the analysis of the weld joint is of prime importance, as it leads to the technological as well as economic results out of the process.
Based on these tests, is it’s feasibility weighed in terms of it’s comparison with other joining processes.
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1. Tool Material Selection
Wanted in an ideal tool:
High Temperature Strength enough to be useful here
Wear Resistance and Durability to bear brushing up a steel
Cheap enough for mass production owing to continuous consumption
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25Post-weld analysis of the Tool
15 mm
260 feet in 1018 mild steel • Solved design issue in driving PCBN • 78 tool plunges • No visible wear • Pin fractured at 262 feet
After 200 feet
Before
Bead on plateperformed for life study
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26Issues with Tool material selection
To apply FSW in steel or other high-temperature materials, the difficulty is mainly associated with finding proper tool material; a material that can withstand the high temperatures that are experienced during the process. The temperatures are especially high because of steel being ferrous.
Resistance to wear (durability) is one important aspect, especially as many of the intended applications are considered critical at a microscopic level; hence there can be no traces of the tool left in the seam. PCBN is one of the most promising tool materials so far.
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27We want a hard material!Why not use Diamond?
Diamond is soluble in iron, nickel, and related alloys at high temperatures, to give carbides
Blending of diamond cutting tools into the metallic components of the movable machinery is relatively a harder task
Natural diamond is very rare and being a gemstone is quite costly while the artificial diamond is very difficult to manufacture.
So diamond abrasives are preferred only for aluminium alloys, ceramics and stone.
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28PCBN – A material to the rescue!
PCBN is one of the most promising tool materials so far considering all the process requirement parameters.
Poly-cBN or PCBN : Polycrystalline Cubic Boron Nitride
Owing to its insolubility in iron, nickel, and related alloys at high temperatures, polycrystalline c-BN (PCBN) abrasives are used for machining steel.
Boron nitride binds well with metals, due to formation of interlayers of metal borides or nitrides making the manufacturing of tools easier, more reliable and a economical.
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2. Phase Effects
Arbitrary heating and cooling of steel is well known to produce a lot of undesirable effects in ferrous alloys.
So studying the effects of stir welding owing to it’s peculiar temperature range on the overall strength of a material like steel gains importance.
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30The consequences of phase transformations accompanying FSW have not been studied in sufficient depth.
In most studies, the steel being friction stir welded becomes locally red hot; the maximum temperature reached is less than 1200 C and the time Dt8–5 taken to cool over the range 800–500 C is approx.. 11 s.
Austenite will therefore form during the heating cycle and will subsequently transform during the cooling cycle.
With few exceptions, only elementary mechanical properties have been characterised in studies of the FSW of steels;
For serious structural applications, it would be necessary to assess fracture toughness and other complex properties in much greater depth. Commercial adoption won’t happen unless it is conclusively shown that the the properties of welded materials are appropriate.
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The material from which the tool is made has to survive much more strenuous conditions because of strength of steel and high softening temperature of steels.
It is apparent that the torment that an FSW tool would have to go through in the case of steel would be much greater than that for aluminium unless temperatures are achieved in excess of some 800 C; the steel must be sufficiently plasticised to permit the material flow to enable a sound weld to be fabricated. Cost effective tool materials which survive such conditions for extended service remain to be developed
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32Phase analysis of materials
304 Stainless Steel
500x
1000x
Sigma phase observed in bands •Also observed at grain boundaries between bands
A typical weld bead on 304 SS
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33Phase analysis of materials
2507 Super Duplex Stainless Steel
0 A1.5 A3 R1.5R3
Up1.5
Ferrite : Red Austenite : Green
Austenite phase exhibits smaller grain size than ferrite phase
R3 R1.5 0 A1.5 A3
Up1.5
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3. Analysis of Welded Joints
Finally the analysis of the weld joint is of prime importance, as it leads to the technological as well as economic results out of the process.
Based on these tests, is it’s feasibility weighed in terms of it’s comparison with other joining processes.
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35Added characteristics ofSolid State Joining
Minimization of fume generation since the heat generated during this process remains below the melting temperature of the material
Reduced distortion
The ability to form strong joints without filler wire
Reduced joint preparation and post-weld clean-up
Reduced post-weld inspection and rework
Various inherent user- and environmentally-friendly properties, such as the ability to be automated
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36Added characteristics ofSolid State Joining
Friction Stir Welding of ferrous alloys offers numerous benefits, such as:
Critical Pitting Temperature (CPT) is 20º C higher than arc-welding processes
FSW does not introduce harmful inter-metallics
FSW retains the proper ratio of austenite and ferrite
FSW does not form excessive amounts of martensite
FSW creates a matching fusion zone without reinforcement
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37A vision for the futureThe challenges have been discussed at great length, but it is useful to speculate on the more difficult task of how a vision for the future may be achieved:
1. The identification of a joining problem for steel which cannot be tackled using conventional techniques. This will necessarily be a niche problem dealing with expensive components in order to justify costs.
2. The imaginative development of a tool material specifically suited to the problem. For example, could the tool be designed so that any tool material which enters into the weld is benign? Perhaps the concept of a slowly consumable tool may then not be farfetched.
2.
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38Potential Applications Underwater Welding
One potential application of FSW is underwater joining of steels, where FSW would have clear advantages over fusion welding.
Underwater pipelines are extremely expensive to place in position and it is possible that the cost of tooling might then become tolerable.
Another is the joining of mechanically alloyed yttria dispersion strengthened iron based alloy which are currently being investigated for the fusion research programme, and for which there is no seriously useful joining technology available. These are expensive materials for an expensive but critically important application.
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39To Sum-up :
Friction Stir Welding is a promising process and has clear advantages in terms of the mechanical properties of the welded material. FSW has already found great applications in the Aluminium industry. Therefore it becomes imperative to try to use it with other materials including stainless steels.
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40Chief ReferencesCritical assessment: friction stir welding of steels
H. K. D. H. Bhadeshia*1 and T. DebRoy
www2.matse.psu.edu/modeling/papers/09STWJ_Bhadeshia.pdf
Friction Stir Welding of Ferrous and Nickel Alloys
Carl D. Sorensen and Tracy W. Nelson Department of Mechanical Engineering, Brigham Young University
www.asminternational.org/content/ASM/StoreFiles/05112G_Chapter_6.pdf
Friction Stir Welding of austenitic stainless steels
C. Meran*, O.E. Canyurt
Mechanical Engineering Department, Engineering Faculty, Pamukkale University,
www.journalamme.org/papers_vol43_1/43149.pdf
Friction Stir Welding of Stainless Steel 304: A Survey Pushp Kumar Baghel Research Scholar, Department of Mechanical Engineering, Delhi Technological University, Delhi, India
http://iosrjournals.org/iosr-jmce/papers/vol1-issue2/D0122223.pdf
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41Other Credits
http://www.esab.com/de/de/support/upload/FSW-Technical-Handbook.pdf
http://ammtiac.alionscience.com/pdf/AMPQ7_3ART02.pdf
http://www.aws.org/conferences/abstracts/2003/10d.pdf
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Thanks…
Navneet Saini 2011ME20779
Praneet Agrawal 2011ME20785