How to welding Titanium? - TIG Welding Titanium

Do you think TIG welding titanium is hard?  

The answer is YES!

Well, it's hard because there are more things that need attention than with TIG welding stainless steel, Also the rod becomes very gummy when you are welding and it wants to stick on the outskirts of the weld.

Welding Titanium UV Reactor

At high temperatures, titanium becomes highly reactive to chemicals in its environment.In regular air, welding contaminates titanium with carbides, nitrides, and oxides that make the weld and heat affected zone brittle, resulting in lower fatigue resistance and notch toughness.

Based on above important difficulties, we need to do more preparation work before welding titanium.

1) Inspect raw materials.

  
  First of all, we have to ultrasonic testing of raw materials: we require no pits, voids, inclusions, cracks, splits., etc. are allowed regardless of size.

Welding Customized Titanium Fittings

2) Clean, Clean Clean.

•   Remove any oil, dirt, or grinding dust from the surface to be jointed.
•   Remove the last remaining organic compounds just before welding.
•   Joint surfaces must be smooth, clean, and completely free of contamination.
    Weld joints and wire must be free of mill scale, dirt, dust, grease, oil, moisture,
    and other contaminants. Any contaminants introduced to the titanium will degrade
    its performance and corrosion resistance.

Welding Grade2 Titanium Fittings with out flange

3) Using auxiliary tools to fix welding parts

  This can avoid mistake and thermal deformation during welding. 

Welding Titanium Elbows with black flange

4) Using the correct filler wire. 

   With inert gas for protection, to prevent oxygention react with air, welding with TIG machine. The thicker of the housing with the chiker the welder wire and the bigger the current.

Welding Titanium Pipe with ear flange

5) NDE inspection

  
  The welding parts will be do X-ray detection after completed welding.

Welding Titanium pipe with square flange

Three Titanium Welding Mistakes

a) Using the wrong filler metal - Trying to weld titanium with anything other than titanium turns the weld into a hard as glass material. You can hear it cracking before it even cools off.

b) Not shielding the weld puddle adequately - When Titanium gets red hot, it loves to suck in all kind of impurities like oxygen and hydrogen. Once this happens, you are screwed, glued, and tattooed. Game over. The weld has to be removed.

c) Not cleaning the metal - porosity is a problem when TIG welding titanium. Anything on the surface like oil, or dust, will cause porosity. 

welding titanium elbows 90 degree

IMPORTANT!!! BJMK can provide the most professional welding service for Titanium, Tantalum, Niobium, Zirconium and other exotic metals.

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Ti-15V-3Cr-3Sn-3Al Alloy

1.    Introduction

Ti-15V-3Cr-3Sn-3Al (Ti-15-3-3-3) is one of the mostly widely used metastable Beta titanium alloys in aircraft industries. A wide range of strength levels can be achieved by heat-treating the Ti-15-3 alloy to meet various needs and applications. It has been reported that a tensile strength over 1700 MPa can be obtained through thermo-mechanical treatments of the Ti-15-3-3-3 alloy

Chinese Similar Materials: TB5      UNS R58153

Ti-15-3-3-3 Alloy Plate

2. Chemical Composition

3.Physical Properties

1)    Density: 4.77 g/cm3

2)    Nonmagnetic

3)    Thermal Conductivity: 20℃ -- 6.1     100℃ -- 7.3      200℃ -- 8.8 
                                       300℃ -- 10.4          400℃ -- 12.0    
                                       500℃ -- 13.7      600℃ -- 15.4

4)    Specific Heat Capacity: 20℃ -- 536     100℃ -- 551     
                                        200℃ -- 567    300℃ -- 583
                                        400℃ -- 599     500℃ -- 616       600℃ -- 630

5)    Electrical Resistivity:  20℃ -- 1.45     100℃ -- 1.48      200℃ -- 1.51 
                                     300℃ -- 1.54          400℃ -- 1.57    
                                     500℃ -- 1.59      600℃ -- 1.60

4.    Mechanical Property

5. Other Designations

Equivalent material to grade Ti 15V 3Cr 3Al 3Sn alloy is AMS 4914.

6. Fabrication and Heat Treatment

7. Machinability

Grade Ti 15V 3Cr 3Al 3Sn alloy is hard to machine but can be successfully done using slow speeds, high coolant flow, and high feed rates. Tooling should be performed using tungsten carbide designations C1-C4 or cobalt type high speed tools.

8. Forming

Grade Ti 15V 3Cr 3Al 3Sn alloy can be hot or cold formed. Cold forming is easy to perform. It is strip-producible.

Ti-15-3-3-3 Alloy Bars

9. Welding

Weldability of grade Ti 15V 3Cr 3Al 3Sn alloy is rated as good.

10. Annealing

Full annealing of this material can be performed by soaking at 792°C (1450°F) and then air cooled. The material can be stress relieved at 538-649°C (1000-1200°F).

11. Forging

Rough forging can be performed at 982-1093°C (1800-2000°F) and completed at 816-927°C (1500-1700°F).

12. Hot Working

Hot working enhances the overall ductility of the material.

UNS R58153 Bars

13. Cold Working

Cold working features of this material is same as that of a moderately tempered austenitic stainless steel. Post-work annealing is recommended to re-attain favorable performance properties.

14. Aging

Grade Ti 15V 3Cr 3Al 3Sn alloy can be aged at 538°C (1000°F) for 8 h and air cooled.

15. Applications

Grade Ti 15V 3Cr 3Al 3Sn alloy was primarily developed for airframe applications.

The other application areas include:

l  Aerospace fasteners

l  Tubing and tankage components

l  Flat-rolled products

l  Foil, plate, castings and forgings.

Ti-15-3-3-3 Hollow Bar

Production Process of Titanium Anode

l  Basic Cutting Methods of Titanium Anode Plate

titanium cutting in two ways:

(1) With linear cutting & shaping;

(2) After the mass production can be made molds press forming;

钛材的切割有两种方法：

（1）用线切割切割成型；

 （2）批量生产以后可制作模具冲压成型；

Titanium Anode Plate

l  Degreasing & Sand Blasting

Sandblasted purpose is to enhance the bonding force of the substrate metal oxide coating. Using the metal cleaning agent to clean the oil on the titanium substrate.

喷砂去油：

喷砂处理的目的是为了增强基体与金属氧化物涂层的结合力。钛基体上沾上油污，采用下述方法：金属清洗剂清洗。

MMO Titanium Anode

l  Oxalic acid etching:

The purpose of the acid treatment is to further enhance the combination strength of the substrate and metal oxide coating, thereby improving the electrical conductivity and prolong the service life of the electrodes. The substrate after acid-etched, the surface of the titanium substrate layer formed uneven pitted surface, which increasing the surface area, so that the real area of the electrode is increased, and then reduced the true current density, and then improved the electrochemical properties of the electrodes. Meanwhile it can also o remove the oxide film on the titanium substrate surface.

    酸处理的目的，是为了进一步增强基体与金属氧化物涂层的结合力，从而改善导电性，延长电极使用寿命。经过酸蚀刻的基体，使钛基体表面形成凹凸不平的麻面层，具有较大的表面积，使电极的真实面积增大，降低了真实电流密度，改善了电极的电化学性能。同时，能除去钛基体表面的氧化膜。

titanium plate coated Ir

l  Ionized water cleaning and alcohol disinfection

Acid treatment is completed; using plenty of water to wash remaining oxalic acid and oxalic acid titanium on the surface of the titanium substrate. After rinsing with ionized water and dried, if handled well, the color of the titanium substrate should be dark gray, then using alcohol disinfection cleaning.

  酸处理完毕，要用大量水冲洗钛基体表面残存的草酸及草酸钛。然后用离子水冲洗待干燥后，处理好的钛基体应呈深灰色，再用酒精消毒清洗。

titanium anodes plates

l  The coating liquids preparation:

(1) Iridium 12 g / m² (2) ruthenium 10 g / m²(3) tin 6 g / m²

铱12克/m²（2）钌10克/m²（3）锡6克/m²

Titanium Anode Mesh coated with Ir

l  Coating the coating liquid:

(1) Coating the liquid on the surface of titanium substrate;

(2) Drying under the temperature of 100 °about 15 minutes

(3) Thermal oxidation under the temperature of 50 ° about 15 minutes

Coating, drying, thermal oxidation operation repeated 18-20 times. Coating the coating liquid is completed.

 （1）把涂液涂敷在钛基体表面上；

 （2）烘干，温度100°，时间15分钟

 （3）热氧化，温度50°，时间15分钟

    涂敷、烘干、热氧化的操作反复进行18-20次。涂敷涂液完成.

Titanium Electrode

l  Vacuum Leveling.

Completed of titanium plate anode.

  钛阳极板制作完成。

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NICKEL ALLOYS - Nickel 400 (UNS04400)

Nickel and nickel alloys are non-ferrous metals with:

• High strength and toughness
• Excellent corrosion resistance
• Superior elevated temperature properties

Alloy 400 (UNS04400)

Characteristics

• Excellent resistance to chloride ion stress corrosion cracking.
• Good mechanical properties from subzero temperatures up to about 480C.
• Corrosion resistance in an extensive range of marine and chemical environments. From pure water to non-oxidizing mineral acids, salts and alkalis.
• This alloy is more resistant to nickel under reducing conditions and more resistant than copper under oxidizing conditions, it does show however better resistance to reducing media than oxidizing.
• Good resistance to sulphuric and hydrofluoric acids. Aeration however will result in increased corrosion rates. May be used to handle hydrochloric acid, but the presence of oxidising salts will greatly accelerate corrosive attack.
• Resistance to neutral, alkaline and acid salts is shown, but poor resistance is found with oxidizing acid salts such as ferric chloride.

Applications

1. Feed water and stream generator tubing
2. Brine heaters, sea water scrubbers in tanker inert gas systems
3. Sulphuric acid and hydrofluoric acid alkylation plants
4. Pickling bath heating coils
5. Heat exchangers in a variety of industries
6. Transfer piping from oil refinery crude columns
7. Propeller and pump shafts
8. Plant for the refining of uranium and isotope separation in the production of nuclear fuel.
9. Pumps and valves used in the manufacture of perchlorethylene, chlorinated plastics.
10. Monoethanolamine (MEA) reboiling tube.
11. Cladding for the upper areas of oil refinery crude columns.

Size ranges

• OD 6.0-89.0mm
• WT 0.5-8.0mm
• Up to 12 meters

The tubes are strictly implements the standard specification ASTM B161/ASME SB161, ASTM B163/ASME SB163, ASTM B167/ASME SB167.

NICKEL ALLOYS - Nickel 201 (UNS02201)

Nickel and nickel alloys are non-ferrous metals with:

• High strength and toughness 

• Excellent corrosion resistance

• Superior elevated temperature properties

Nickel 201 (UNS 02201)

Characteristics

• Good resistance to corrosion in acids and alkalis and is most useful under reducing conditions.
• Outstanding resistance to caustic alkalis up to and including the molten state.
• Virtually immune to inter granular attack above 315C, chlorates must be kept to a minimum.
• In acid, alkaline and neutral salt solutions the material shows good resistance, but in oxidizing salt solutions severe attack will occur.
• Resistant to all dry gases at room temperature and in dry chlorine and hydrogen chloride may be used in temperatures up to 550C.
• Resistance to mineral acids varies according to temperature and concentration and whether the solution is aerated or not. Corrosion resistance is better in deaerated acid.

Applications

• Manufacture and handling of sodium hydroxide, particularly at temperature above 300C.
• Production of viscose rayon. Manufacture of soap.
• Aniline hydrochloride production and in the chlorination of aliphatic hydrocarbons such as benzene, methane and ethane.
• Manufacture of vinyl chloride monomer.
• Storage and distribution systems for phenol - immunity from any form of attack ensures absolute product purity.
• Reactors and vessels in which fluorine is generated and reacted with hydrocarbons.

Size ranges

• OD 6.0 - 89.0 mm
• WT 0.5 - 8.0 mm
• Up to 12 meters

The tubes are strictly implements the standard specification ASTM B161/ASME SB161, ASTM B163/ASME SB163, ASTM B167/ASME SB167.

NICKEL ALLOYS - Nickel 200 (UNS02200)

Nickel and nickel alloys are non-ferrous metals with:

• High strength and toughness
• Excellent corrosion resistance
• Superior elevated temperature properties

Nickel 200 (UNS02200)

Characteristics

• Good resistance to corrosion in acids and alkalis and is most useful under reducing conditions.
• Outstanding resistance to caustic alkalis up to and including the molten state. In acid, alkaline and neutral salt solutions the material shows good resistance, but in oxidizing salt solutions severe attack will occur.
• Resistant to all dry gases at room temperature and in dry chlorine and hydrogen chloride may be used in temperatures up to 550C.
• Resistance to mineral acids varies according to temperature and concentration and whether the solution is aerated or not. Corrosion resistance is better in deaerated acid.

Applications

• Manufacture and handling of sodium hydroxide, particularly at temperature above 300C.
• Production of viscose rayon. Manufacture of soap.
• Analine hydrochloride production and in the chlorination of aliphatic hydrocarbons such as benzene, methane and ethane.
• Manufacture of vinyl chloride monomer.
• Storage and distribution systems for phenol immunity from any form of attack ensures absolute product purity.
• Reactors and vessels in which fluorine is generated and reacted with hydrocarbons.

Size ranges

• OD 6.0 - 89.0 mm
• WT 0.5 - 8.0 mm
• Up to 12 meters

The tubes are strictly implements the standard specification ASTM B161 / ASME SB161, ASTM B163/ASME SB163, ASTM B167/ASME SB167.

Titanium Flange Type and Flange Sealing Surface

    Recently, one of my client inquired titanium flange to me, I asked him flange type but he gave me FF. In fact, FF is sealing surface not flange type. So I think maybe I should put emphasis on titanium products also, not only titanium materials. 

    Then let's learn about the titanium flange information more together.

     1. Flange Type:
        
         1.1 PL FLG - Plate Flange
                  

Titanium PL Flange

         1.2 SO FLG - Slip On Flange

 

Slip On Titanium Flange - SO Flange

         1.3 WN FLG - Welding Neck Flange

Titanium WN Flange - Welding Neck Flange

     1.4 IF FLG - Integral Flange

Titanium IF Integral Flange 

          1.5 SW FLG - Socket Weld Flange

Titanium SW Flange - Socket Welding Flange

           1.6 Th FLG - Thread Flange

Titanium TH Flange - Thread Flange

             1.7 LJ/PJ/SE - Lap Joint Flange

Titanium LJ/PJ/SE Flange - Lap Joint Flange

                1.8 BL FLG - Blind Flange

 

GR5 BL Flange - Blind Flange 

2. Titanium Flange Sealing Surface / Tpye of Facing

2.1  RF - Raised Face Flange

2.2 FF - Flat Face Flange

2.3 FM /M - Male & Female Flange

titaniumalloy@bjmkgs.com

2.4 TG - Tongue & Groove Flange

titaniumalloy@bjmkgs.com

2.5 RTJ - Ring Joint Flange

titaniumalloy@bjmkgs.com

3. Class & PN  -- Pessure Rating

3.1  American Standard:
        150LB, 300LB, 400LB, 600LB, 900LB, 1500LB, 2500LB

3.2 Germany Standard:
        PN6, PN10, PN16, PN25, PN40, PN64, PN100, PN160

3.3 Chinese Standard

        PN0.6, PN1.0, PN1.6, PN2.5, PN4.0, PN5.0, PN6.3, PN10, PN11
        PN15, PN26, PN42

4. Common Titanium Flange Materials

   Commercial Pure Titanium : Grade2, Grade7
   Titanium Alloy : Grade5 (Ti-6AL-4V)

5. Common Titanium Flange Diameter
                     ASME B16.5    1.2" ~ 48"
                                                 DN100 ~ DN1200

6. Table in both Chinese and English

Above are all the information about flange type and sealing surface.

If you want to know more about Titanium Flange please don't hesitate to contact us at titaniumalloy@bjmkgs.com.