Name: Mr.Hu胡先生
Tel: 15868229433
Fax: 0086-577-85989655
E-mail: patrick@cnjdgy.com
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Add: No 111 , Longwan District ,Wenzhou,China
Duplex Stainless Steel
Brief Info :
ChuangYe Metal are professional manufacturer for stainless steel seamless pipe ,stainless steel welded pipe ,stainless steel pipe fittings ,stainless steel flanges . our main products including : stainless steel seamless pipe ,stainless steel welded pipe ,stainless steel pipe fittings ,stainless steel flanges etc
Duplex Stainless Steel
Typically twice the yield of austenitic stainless steels. Minimum Specified UTS typically 680 to 750N/mm2 (98.6 to 108ksi). Elongation typically > 25%.
Superior corrosion resistance than a 316. Good Resistance to stress corrosion cracking in a chloride environment.
Duplex materials have improved over the last decade; further additions of Nitrogen have been made improving weldability.
Because of the complex nature of this material it is important that it is sourced from good quality steel mills and is properly solution annealed. Castings and possibly thick sections may not cool fast when annealed causing sigma and other deleterious phases to form.
The material work hardens if cold formed; even the strain produced from welding can work harden the material particularly in multi pass welding. Therefore a full solution anneal is advantageous, particularly if low service temperatures are foreseen.
The high strength of this material can make joint fit up difficult.
Usable temperature range restricted to, -50 to 280°C
Used in Oil & Natural Gas production, chemical plants etc.
Standard Duplex
S31803 22Cr 5Ni 2.8Mo 0.15N PREn = 32-33
Super Duplex: Stronger and more corrosion resistant than standard duplex.
S32760(Zeron 100) 25Cr 7.5Ni 3.5Mo 0.23N PREn = 40
Micro Of Standard Duplex
Dark Areas:- Ferrite
Light Areas:- Austenite
Duplex solidifies initially as ferrite, then transforms on further cooling to a matrix of ferrite and austenite. In modern raw material the balance should be 50/50 for optimum corrosion resistance, particularly resistance to stress corrosion cracking. However the materials strength is not significantly effected by the ferrite / austenite phase balance.
The main problem with Duplex is that it very easily forms brittle intermetalic phases, such as Sigma, Chi and Alpha Prime. These phases can form rapidly, typically 100 seconds at 900°C. However shorter exposure has been known to cause a drop in toughness, this has been attribute to the formation of sigma on a microscopic scale.
Prolonged heating in the range 350 to 550°C can cause 475°C temper embrittlement.
For this reason the maximum recommended service temperature for duplex is about 280°C.
Sigma (55Fe 45Cr) can be a major problem when welding thin walled small bore pipe made of super duplex, although it can occur in thicker sections. It tends to be found in the bulk of the material rather than at the surface, therefore it probably has more effect on toughness than corrosion resistance. Sigma can also occur in thick sections, such as castings that have not been properly solution annealed (Not cooled fast enough).
However most standards accept that deleterious phases, such as sigma, chi and laves, may be tolerated if the strength and corrosion resistance are satisfactory.
Nitrogen is a strong austenite former and largely responsible for the balance between ferrite and austenite phases and the materials superior corrosion resistance. Nitrogen can’t be added to filler metal, as it does not transfer across the arc. It can also be lost from molten parent metal during welding. Its loss can lead to high ferrite and reduced corrosion resistance. Nitrogen can be added to the shielding gas and backing gas, Up to about 10%; however this makes welding difficult as it can cause porosity and contamination of the Tungsten electrode unless the correct welding technique is used. Too much Nitrogen will form a layer of Austenite on the weld surface. In my experience most duplex and super duplex are TIG welded using pure argon.
Backing / purge gas should contain less than 25ppm Oxygen for optimum corrosion resistance.
Fast cooling from molten will promote the formation of ferrite, slow cooling will promote austenite. During welding fast cooling is most likely, therefore welding consumables usually contain up to 2 - 4% extra Nickel to promote austenite formation in the weld. Duplex should never be welded without filler metal, as this will promote excessive ferrite, unless the welded component is solution annealed. Acceptable phase balance is usually 30 – 70% Ferrite
Duplex welding consumables are suitable for joining duplex to austenitic stainless steel or carbon steel; they can also be used for corrosion resistant overlays. Nickel based welding consumables can be used but the weld strength will not be as good as the parent metal, particularly on super duplex.
• Low levels of austenite: - Poor toughness and general corrosion resistance.
• High levels of austenite: - Some Reduction in strength and reduced resistance to stress corrosion cracking.
Good impact test results are a good indication that the material has been successfully welded. The parent metal usually exceeds 200J. The ductile to brittle transition temperature is about –50°C. The transition is not as steep as that of carbon steel and depends on the welding process used. Flux protected processes, such as MMA; tend to have a steeper transition curve and lower toughness. Multi run welds tend to promote austenite and thus exhibit higher toughness
Tight controls and the use of arc monitors are recommended during welding and automatic or mechanised welding is preferred. Repair welding can seriously affect corrosion resistance and toughness; therefore any repairs should follow specially developed procedures. See BS4515 Part 2 for details.
Production control test plates are recommended for all critical poduction welds.
Welding procedures should be supplemented by additional tests, depending on the application and the requirements of any application code:-
• A ferrite count using a Ferro scope is probably the most popular. For best accuracy the ferrite count should be performed manually and include a check for deleterious phases.
• Good impact test results are also a good indication of a successful welding procedure and are mandatory in BS4515 Part 2.
• A corrosion test, such as the G48 test, is highly recommended. The test may not model the exact service corrosion environment, but gives a good qualative assessment of the welds general corrosion resistance; this gives a good indication that the welding method is satisfactory. G48 test temperature for standard duplex is typically 22°C, for super duplex 35°C
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