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Ladhani Metal Corporation offers Half Round Tube Shields specially designed for refinery heaters, where tubes are exposed to extremely high operating temperatures, flue gas velocity, and abrasive particle erosion. These shields act as a protective barrier, preventing tube surface wear, oxidation, and localized damage in the radiant and convection sections of refinery heaters. By absorbing erosive and thermal stress, Half Round Tube Shields extend tube service life, reduce maintenance downtime, and improve heater reliability.
Function of Tube Shields in Refinery Heaters
• Protect heater tubes against erosion, oxidation, and scaling
• Reduce wear in high-flue-gas velocity zones and flame-impinged areas
• Extend tube lifespan under continuous high-temperature service
• Improve refinery heater efficiency and minimize shutdown frequency
Ladhani Metal Corporation manufactures, supplies, and exports Half Round Tube Shields in refinery-grade stainless steels and heat-resistant alloys, offering custom sizes to meet specific heater configurations.
Available Grades
• SS 304 / SS 304L
• SS 310 / SS 310S
• SS 316 / SS 316L
• SS 410 / SS 420 / SS 430
• 1Cr13
• 1Cr18Ni9Ti
• 1Cr20Ni14Si2
• 1Cr25Ni20Si2
• Cr23Ni13
• Cr25Ni20
Applications: Used in refinery heaters, petrochemical furnaces, process gas heaters, and other fired equipment requiring tube surface protection against oxidation, erosion, and flame impingement.
Uses
• Shields radiant section tubes from high-temperature scaling
• Protects convection section tubes against flue gas erosion
• Extends operational life of refinery heater components
• Provides reliability under continuous refinery operating cycles
Features
• Excellent high-temperature oxidation resistance
• Strong mechanical strength under thermal cycling
• Precision-formed to match tube curvature for complete coverage
• Available in stainless steel and heat-resistant alloy grades
Applications
• Refinery fired heaters – Protects radiant and convection section tubes
• Petrochemical process furnaces – Guards against erosive and thermal wear
• Thermal cracking and reformer heaters – Enhances tube longevity
• Industrial fired heaters – Suitable for high-temperature corrosive atmospheres
Conclusion
Half Round Tube Shields for Refinery Heaters by Ladhani Metal Corporation deliver reliable, export-quality protection for tubes operating under extreme refinery service conditions. Available in stainless steels and special alloys, these shields are engineered to enhance efficiency, reduce erosion damage, and extend heater tube service life.
Ladhani Metal Corporation manufactures and supplies SS Heat-Resistant Alloy Tube Shields designed to protect boiler tubes, reheaters, superheaters, economizers, and HRSG units exposed to high-temperature and erosive environments. These shields are engineered from stainless steels and special heat-resistant alloys that ensure excellent resistance to oxidation, scaling, and particle erosion. Their half-round and bend-formed designs provide a secure fit around straight tubes, elbows, and U-bends, extending operational life and reducing tube maintenance frequency.
Function of SS Heat-Resistant Alloy Tube Shields
• Protect tubes from erosion, oxidation, and soot blower impact
• Withstand temperatures exceeding 600°C under boiler operating conditions
• Prevent premature thinning, cracking, and tube leakage
• Extend service life of steam-generating equipment in power and process industries
Ladhani Metal Corporation manufactures, supplies, and exports SS Heat-Resistant Alloy Tube Shields in various thicknesses, lengths, and bend radii to meet domestic and international boiler standards.
Available Grades
• SS 304 / SS 304L
• SS 310 / SS 310S
• SS 316 / SS 316L
• SS 410 / SS 420 / SS 430
• 1Cr13
• 1Cr18Ni9Ti
• 1Cr20Ni14Si2
• 1Cr25Ni20Si2
• Cr23Ni13
• Cr25Ni20
Applications: Power plants, waste heat recovery boilers (WHRBs), heat recovery steam generators (HRSGs), petrochemical heaters, cement plants, and industrial furnaces requiring long-term resistance to high-temperature erosion and flue gas corrosion.
Uses
• Shields reheater, superheater, and economizer tubes
• Provides erosion protection for U-bends and elbow bends
• Guards tubes against soot blower and high-velocity flue gas damage
• Ensures longer service life of boiler and process equipment
Features
• High-temperature strength and creep resistance
• Excellent resistance to scaling and oxidation
• Precision fit for multiple tube geometries
• Available in stainless steel and heat-resistant alloy grades
Applications
• Thermal power stations – Reliable tube protection in high-temperature zones
• WHRBs and HRSGs – Durability under erosive and cyclic operating conditions
• Petrochemical and industrial heaters – Performance under aggressive heat cycles
• Process industries – Reduced tube wear and maintenance costs
Conclusion
The SS Heat-Resistant Alloy Tube Shields by Ladhani Metal Corporation deliver robust, export-ready solutions for protecting boiler tubes against high-temperature erosion, oxidation, and soot blower damage. Offered in stainless steels (304, 304L, 310, 310S, 316, 316L, 410, 420, 430) and heat-resistant alloys (1Cr13, 1Cr18Ni9Ti, 1Cr20Ni14Si2, 1Cr25Ni20Si2, Cr23Ni13, Cr25Ni20), these shields provide precision fit, superior durability, and long service life in demanding boiler environments.
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Ladhani Metal Corporation offers Heat-Resistant Alloy Tube Shields designed for protecting boiler tubes, reheaters, superheaters, economizers, and HRSG components operating under extreme temperature and erosive environments. These shields are manufactured from high-performance heat-resistant alloys that provide superior resistance to oxidation, scaling, and erosion caused by high-velocity flue gases and abrasive ash particles. Their precision-engineered half-round or bend profiles ensure a perfect fit for straight tubes, U-bends, and elbows, delivering long-lasting protection.
Function of Heat-Resistant Alloy Tube Shields
• Protect boiler tubes from erosion, oxidation, and soot blower damage
• Withstand continuous exposure to temperatures above 600°C
• Minimize tube thinning, leakage, and unplanned downtime
• Extend the service life of steam-generating equipment
Ladhani Metal Corporation manufactures, supplies, and exports Heat-Resistant Alloy Tube Shields in multiple thicknesses, radii, and lengths, serving both domestic and international boiler industries.
Available Grades
• SS 304 / SS 304L
• SS 310 / SS 310S
• SS 316 / SS 316L
• SS 410 / SS 420 / SS 430
• 1Cr13
• 1Cr18Ni9Ti
• 1Cr20Ni14Si2
• 1Cr25Ni20Si2
• Cr23Ni13
• Cr25Ni20
Applications: Widely used in thermal power plants, waste heat recovery boilers (WHRBs), heat recovery steam generators (HRSGs), petrochemical heaters, and industrial furnaces operating under severe thermal and erosive stress.
Uses
• Shields straight tubes, elbows, and U-bends from high-temperature erosion
• Provides reliable protection in reheater, superheater, and economizer sections
• Prevents premature tube failures caused by flue gas and ash particle impact
• Reduces boiler downtime and improves operational reliability
Features
• Exceptional high-temperature strength and creep resistance
• Excellent oxidation and scaling resistance in aggressive atmospheres
• Precision-fit design for easy installation on various tube geometries
• Available in stainless steels and heat-resistant special alloys
Applications
• Power generation boilers – Long-term erosion and oxidation protection
• Waste heat recovery boilers – Durable in high-dust, high-temperature zones
• HRSGs – Reliable under cyclic and continuous operations
• Petrochemical and process heaters – Withstands aggressive thermal cycling
Conclusion
The Heat-Resistant Alloy Tube Shields by Ladhani Metal Corporation offer advanced protection for boiler tubes exposed to extreme heat, erosion, and flue gas corrosion. Available in a wide range of stainless steel and high-performance alloy grades, these shields are engineered for durability, precision fit, and long service life in demanding boiler environments.
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Product Name: Titanium seamless pipe for heat exchanger
Standard: ASTM B338
Material: Gr1, Gr2
Unit Price: $25usd/kg-$40usd/kg
Type: Seamless
Shape: Round
Outer Diameter: 21.3mm-609.6mm etc.
Wall Thickness: 1.24-30mm
Length: Max 16000mm
Surface: Bright
Titanium seamless pipe for heat exchanger
The grade 2 titanium tube consists of commercial pure titanium or Unalloyed titanium. The oxygen content of grade 2 is standard. ASTM b861 GR 2 pipes can be easily welded. It also has excellent strength and ductility. The natural strength of metal is used for applications requiring very high strength, and the corrosion resistance is used for long-term appliances. Although most use cases are in industrial standards, titanium grade 2 seamless pipes can also be used in aesthetic and home applications. Due to the cost of raw materials and production costs, the cost is very high. The content of titanium in commercial pure CP grade 2 titanium welded pipe exceeds 99%. It can be cold drawn into titanium seamless pipe or hot rolled into welded pipe. They are used in high temperature applications, such as titanium 2-stage exhaust pipes, which can maintain their shape due to their high thermal conductivity, low thermal expansion and high oxidation resistance at high temperatures.
Product name: Grade 7 titanium tubes
Standard:ASTM B338 ASTM B861 ASTM B862
Material:Titanium Gr7
Diameter:5-914mm
Wall thickness:0.5-10mm
Length:Max 16000mm
Surface:Pickling surface/Polished
Type:Seamless, welded
Application:Heat Exchanger, chemical industry etc.
Technique:Rolled
Grade 7 Titanium Tubes
Product name: Grade 7 titanium tubes
Standard:ASTM B338 ASTM B861 ASTM B862
Material:Titanium Gr7
Diameter:5-914mm
Wall thickness:0.5-10mm
Length:Max 16000mm
Surface:Pickling surface/Polished
Type:Seamless, welded
Application:Heat Exchanger, chemical industry etc.
Technique:Rolled
Dimension and Tolerance of titanium tube
Outside diameter,
in.(mm)
Diameter tolerance,
in.(mm)
Permissible variations , wall thinckness,
t, % in.(mm)
<1 (25.4) ±0.004( ± 0.012) ±10
1-1½(25.4-38.1) ±0.005( ±0.127 ) ±10
1½-2(38.1-50.8) ±0.006( ± 0.152) ±10
2-2½(50.8-63.5) ±0.007( ± 0.178) ±10
2½-3½(63.5-88.9) ±0.010( ± 0.254) ±10
Grade 7 (Ti-0.2Pd) titanium tube
Chemical compositions(weight%,<=)
Pd
Al
V
Fe
C
0.12-0.25
----
----
0.30
0.08
N
H
O
Other(total)
Ti
0.05
0.015
0.2
0.4
Remainder
Physical properties(>=)
Σb
Tensile Strength
(Mpa)
σr0.2
Yield Strength
(Mpa)
δL0+50mm
Elongation
(%)
ψ
Reduction of area
(%)
370
250
20
25
The density of titanium alloy is generally about 4.51g/ cubic centimeter, only 60 of steel, the strength of pure titanium is close to the strength of ordinary steel, some high strength titanium alloy exceeds the strength of many alloy structural steel. Therefore, the specific strength (strength/density) of titanium alloy is much higher than that of other metal structural materials, as shown in Table 7-1. It can produce components with high unit strength, good rigidity and light weight. At present, titanium alloy is used for engine components, skeleton, skin, fasteners and landing gear.
High thermal strength
The use temperature is several hundred degrees higher than aluminum alloy, can still maintain the required strength at moderate temperature, can work for a long time at 450500 temperature these two titanium alloys still have high specific strength in the range of 150500, and aluminum alloy at 150 than the strength decreased significantly. Titanium alloys operate at temperatures up to 500, while aluminum alloys operate below 200.
Good resistance to corrosion
The corrosion resistance of titanium alloy is much better than that of stainless steel when working in humid atmosphere and seawater medium. Resistance to pitting corrosion, acid corrosion, stress corrosion is particularly strong; Excellent corrosion resistance to alkali, chloride, chlorine organic articles, nitric acid, sulfuric acid and so on. But titanium has poor corrosion resistance to reducing oxygen and chromite medium.
Good low temperature performance
Titanium alloy can keep its mechanical properties at low temperature and ultra low temperature. Titanium alloys with good low temperature performance and very low gap elements, such as TA7, can maintain certain plasticity at -253. Therefore, titanium alloy is also an important low temperature structural material.
Aka CAS No. 13463-67-7, Titanium (VI) oxide, Titania, Rutile, Anatase, Brookite
Titanium Dioxide Chemical
Titanium Dioxide, also referred to Titania, has a molecular formula of Ti02 and this mineral compound – a white colored, odorless solid – is available in three different forms. Rutile titanium dioxide is the most common naturally occurring form followed by the anatase form but titanium dioxide can also be produced synthetically.
Titanium dioxide is produced from either ilmenite, rutile or titanium slag. The titanium pigment is extracted by using either sulphuric acid (sulphate process) or chlorine (chloride route). The sulphate process employs simpler technology while the chloride route produces a purer product.
Titanium Dioxide – classified by CAS No. 13463-67-7 – is mined as a mineral in magmatic rocks. It is non-flammable, non-explosive and titanium dioxide is the most widely used pigment because of its brightness and refractive index.
Bulk Chemicals Pallate
Over 4 million tons of titanium dioxide are used worldwide every year for a wide array of common applications like paint, coatings, plastics, papers, ink, food (it’s often used to whiten skim milk and to enhance the flavor of nuts, seeds, soup and beer), medicine and toothpaste.
Titanium Dioxide is also used in cosmetics and skin care products as a pigment, in sunscreen and sunblock as a thickener to protect the skin from ultraviolet light.
Titanium Dioxide, believe it or not, is used to mark the white lines on the tennis courts at Wimbledon. Indeed, titanium dioxide accounts for 70% of the total production of pigments worldwide because “titanium white,” as it’s often called, is one of the whitest materials known to exist on Earth. In fact, titanium dioxide is even more reflective than diamonds!
Distributor & High Volume Supplier
CP Titanium – Commercially Pure Titanium
Titanium CP4 – Grade 1
Commercially Pure Titanium Grade 1 is the softest titanium and has the highest ductility. It has good cold forming characteristics and provides excellent corrosion resistance. It also has excellent welding properties and high impact toughness.
Applications
Architecture, Automotive Desalination, Dimensional Stable Anodes, Medical, Marine, Processing & Chlorate Manufacturing
Standards
ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-338, ASME SB-348, ASTM F-67, ASME SB-265, ASME SB-337, ASME SB-338
Forms Available
Bar, Flanges, Forgings, Sheet, Welding Wire
Titanium CP3 – Grade 2
Commercially Pure Titanium Grade 2 has moderate strength and excellent cold forming properties. It provides excellent welding properties and has excellent resistance to oxidation and corrosion.
Applications
Aerospace, Automotive, Chemical Processing & Chlorate Manufacturing, Desalination, Architecture, Hydro Carbon Processing, Marine, Medical, Power Generation
Standards
ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-338, ASME SB-348, ASTM F-67, AMS 4921, ASME SB-265, AMS 4902, ASME SB-337, ASME SB-338, AMS 4942
Forms Available
Bar, Fittings, Flanges, Forgings, Pipe, Plate, Sheet, Tube, Welding Wire, Wire
Titanium CP2 – Grade 3
Commercially Pure Titanium Grade 3 is stronger and less formable than Titanium Grades 1 and 2. It is used in Aerospace and industrial applications that require moderate strength. Grade 3 titanium has excellent corrosion resistance.
Applications
Aerospace, Architecture, Automotive, Chemical Processing & Chlorate Manufacturing, Desalination, Hydro Carbon Processing, Marine, Medical, Power Generation,
Standards
ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-338, ASME SB-348, ASTM F-67, AMS 4921, ASME SB-265, AMS 4902, ASME SB-337, ASME SB-338, AMS 4942
Forms Available
Bar, Fittings, Flanges, Forgings, Pipe, Plate, Sheet, Tube, Welding Wire, Wire
Titanium CP1 – Grade 4
Commercially Pure Titanium Grade 4 is stronger than CP Grades 2 & 3 – it can be cold formed, but has lower ductility. It has excellent corrosion resistance in a wide variety of environments. Grade 4 titanium is commonly used in Aerospace, Industrial and Medical applications where high strength is needed.
Applications
Aerospace, Chemical process, Industrial, Marine, Medical
Standards
ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-348, ASTM F-67, AMS 4921, ASME SB-265, AMS 4901, ASME SB-338
Forms Available
Bar, Forgings, Sheet, Welding Wire, Wire
Titanium Grade 7
Titanium Grade 7 has physical and mechanical properties equivalent to CP3 titanium or Grade 2. It has excellent welding and fabrication properties and is extremely resistant to corrosion especially from reducing acids.
Applications
Chemical Processing, Desalination, Power generation
Standards
ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-338, ASME SB-348, ASME SB-265, ASME SB-337, ASME SB-338,
Forms Available
Bar, Forgings, Plate, Sheet, Tube, Welding Wire, Wire
Titanium Grade 11 – CP Ti-0.15Pd
Titanium Grade 11 is highly resistant to corrosion has similar physical and mechanical properties to Titanium CP Grade 2.
Applications
Chemical processing, Desalination Power generation, Industrial
Standards
ASME SB-338
Forms Available
Tube
Titanium Based Alloys
Titanium Grade 5 – Titanium 6Al-4V
Titanium Grade 5 alloy is the most commercially available of all titanium alloys. It offers an excellent combination of high strength and toughness. Grade 5 titanium has good welding and fabrication characteristics.
Applications
Aerospace, Chemical Processing, Marine, Medical
Standards
ASME SB-265, AMS 4911, ASME SB-348, AMS 4928, AMS 4965, AMS 4967
Forms Available
Titanium Grade 6 – Titanium 5Al-2.5Sn
Titanium Grade 6 alloy offers good weldability, stability and strength at elevated temperatures.
Applications
Aerospace
Standards
ASME SB-381, AMS 4966, MIL-T-9046, MIL-T-9047, ASME SB-348, AMS 4976, AMS 4956, ASME SB-265, AMS 4910, AMS 4926
Forms Available
Bar, Forgings Plate, Sheet, Wire
Titanium Grade 9 – Titanium 3Al-2.5V
Titanium Grade 9 has medium strength that falls between Grade 4 and Grade 5. It has excellent corrosion resistance and is used in Aerospace and Industrial applications. Grade 9 Titanium can be used at higher temperatures than Grades 1 through 4. Grade 9 titanium has good cold rolling properties.
Applications
Aerospace, Automotive, Chemical processing, Consumer applications, Marine, Medical, Transportation
Standards
AMS 4943, AMS 4944, ASME SB-338
Forms Available
Bar, Forgings Plate, Sheet, Wire
Titanium Grade 12 – Ti-0.3-Mo-0.8Ni
This Titanium Grade 12 alloy is similar to Titanium Grades 2 and 3 except that Titanium Grade 12 has 0.3% molybdenum and 0.8% nickel. This offers enhanced corrosion resistance.
Applications
Chemical processing, Desalination, Power generation, Industrial
Standards
ASME SB-338
Forms Available
Tube
Titanium Grade 19 – Titanium Beta C
Titanium Grade 19 has very high strength and can be heat treated. It offers good resistance to stress and corrosion.
Applications
Aerospace Automobile
Standards
MIL-T-9046, MIL-T-9047, ASME SB-348, AMS 4957, AMS 4958, ASME SB-265
Titanium Grade 23 – Titanium 6Al-4V ELI
Titanium Grade 23 is similar to Grade 5 but has lower oxygen, nitrogen and iron. It has better ductility and fracture toughness than Titanium Grade 5.
Applications
Aerospace, Chemical Processing, Marine, Medical
Standards
AMS 4911, AMS 4928, AMS 4930, AMS 4931, AMS 4935, AMS 4965, AMS 4967, AMS 4985, AMS 4991, MIL -T-9046, MIL -T-9047, BSTA 10,11,12, BSTA 28,56,59, DIN 3.7165, AMS 4907 ELI, AMS 4930 ELI, AMS 4956 ELI, ASTM F136 ELI, UNS R56407
Forms Available
Bar, Forgings, Plate, Sheet, Welding Wire, Wire
Titanium 6Al-6V-2Sn – Titanium 6-6-2
Titanium 6-2-4-2 has excellent strength, stability, and creep resistance to temperatures as high as 550 °C.
Applications
Gas, Turbine Compressor Engine afterburner, Aerospace
Standards
AMS 4919, AMS 4952, AMS 4975, DIN 3.7164, GE B50 TF22, GE B50TF21, GE B50TF22, GE C50TF7, MIL F-83142, MIL T-9046, MIL T-9047, PWA 1220, UNS R54620
Forms Available
Bar, Plate, Sheet
Titanium 6Al-2Sn-4Zr-2Mo – Titanium 6-2-4-2
Titanium 6Al-6V-2Sn is a two-phase, Alpha Beta Alloy. It is usually used in the annealed or solution treated and aged conditions. It’s a heat treatable, high strength alloy with lower toughness and ductility than Titanium Grade 5 (6Al-4V) and it’s difficult to weld. Cold forming of Titanium 6Al-6V-2Sn is difficult because of its high strength and the large amount of spring-back that results. This grade can be welded by the inert gas shielded, fusion welding process but the heat effected area will have less ductility and toughness than the parent material. The hardness of Titanium 6-6-2 is approximately Rockwell C 36-38. This grade is primarily used for airframe and jet engine parts, rocket engine cases and ordinance components. Please call us to determine our minimum item quantity.
Applications
Airframe Components, Jet Engine Parts, Ordinance Components, Rocket Engine Cases
Standards
AMS 4981, MIL-T-9047,
Forms Available
Bar, Wire Sheet, Plate, Forgings, Fittings, Flanges, Seamless Pipe, Seamless Tube, Welded Pipe, Welded Tube
Titanium 6Al-2Sn-4Zr-6Mo – Titanium 6-2-4-6
Titanium 6Al-2Sn-4Zr-6Mo is an Alpha-Beta Alloy and it’s generally regarded as the workhorse alloy of the titanium industry. The alloy is fully heat-treatable in section sizes up to one inch and is used up to approximately 400°C (750°F). Since it is one of the most commonly used alloys (over 70% of all alloy grades melted are a sub-grade of Ti-6-4,) its uses span many aerospace engine and airframe components. Titanium 6Al-2Sn-4Zr-6Mo is also used in lots of non-aerospace applications such as marine, offshore and power generation industries. This Alpha-Beta Alloy combines good corrosion resistance and strength with weldability and fabricability. The alloy is generally available in bar form and it’s typically used in deep sour well applications. This alloy can be hot or cold formed. Please call us to determine our minimum item quantity.
Applications
Aerospace Engines, Airframe Components, Marine Applications, Offshore Applications, Power Generation Applications
Standards
AMS 4981
Forms Available
Bar, Plate, Sheet
Titanium 8Al-1Mo-1V – Titanium 8-1-1
Titanium 8Al-1Mo-1V is a near Alpha Alloy that was primarily designed for use at elevated temperatures – up to 455 degrees centigrade. It offers the highest modulus and lowest density of all Titanium alloys. It has good creep strength and it’s weldable by the inert gas fusion and resistance-welding processes. Titanium 8Al-1Mo-1V is used in the annealed condition for such applications as airframe and jet engine parts that demand high strength, superior creep resistance and a good stiffness-to-density ratio. The machinability of this grade is similar to that of Titanium 6Al-4V. Please call us to determine our minimum item quantity.
Applications
Airframe Parts, Jet Engine Parts
Standards
MIL-T-9046, MIL-T-9047, AMS 4972, AMS 4915, AMS 4973, AMS 4955, AMS 4916
Forms Available
Forgings, Bar, Sheet, Plate, Strip, Extrusions, Wire
Titanium 10V-2Fe-3Al
Titanium 10V-2Fe-3Al is a Titanium Beta Alloy. It is harder and stronger than many titanium alloys. This Titanium is a heat treatable alloy, it’s weldable and it’s easily formed. Titanium 10V-2Fe-3Al is an all Beta Alloy and is more difficult to machine than most titanium alloys. The chief problems include flank wear, spring-back and chip control. Because of these characteristics, positive rake chip grooves in combination with light hones on the cutting edge are advantageous. Please call us to determine our minimum item quantity.
Applications
Airframe Components, Compressor Blades, Disks, Wheels and Spacers
Standards
AMS 4983, AMS 4984, AMS 4986, AMS 4987
Forms Available
Bar, Forgings, Plate, Sheet, Seamless Pipe, Seamless Tube, Welded Pipe, Welded Tube, Wire
Titanium 15V-3Cr-3Sn-3Al
This Metastable-Beta Alloy is used primarily in sheet metal form. It is age-hardenable and highly cold-formable. Titanium 15V-3-3-3 is often used to replace hot-formed Titanium Grade 5 (6Al-4V) sheet. It can also be produced as foil and is an excellent alloy for castings. For aerospace applications, this grade is often specified as AMS 4914. Please call to determine the minimum item quantity.
Applications
Aerospace Tank Applications, Airframe Applications, Castings, Fasteners High Strength Hydraulic Tubing
Standards
AMS 4914, ASTM B265
Forms Available
Sheet, Foil
Titanium Alpha Alloys
Commercially pure titanium and alpha alloys of titanium are non-heat treatable and have very good welding characteristics.
Applications
Cryogenic applications, Airplane parts, Chemical processing equipment
Standards
AMS 4973, AMS 4976, AMS 4924, AMS 4972, MIL-T-9047, AMS 4910, ASTM B265, GR-6 MIL-T9046, AMS 4909, AMS 4915/4916, AMS 4966, AMS 4924, AMS 4973, AMS 4933, MIL-T-81556A A-1, MIL-T-81556A A-2, MIL-T-81556A A-4
Forms Available
Bar, Forgings, Plate, Sheet Extrusions
Titanium Beta Alloys
Titanium Beta or near Beta Alloys are:
Fully heat treatable Generally weldable
Capable of high strengths Possess good creep resistance up to intermediate temperatures
In the solution treated condition, excellent formability can be expected from Beta Alloys
Titanium Beta Alloys are ideal for sporing applications. Common Titanium Beta Alloys include:
Ti3Al8V6Cr4Mo4Zr
ASTM Grade 19
Ti-3Al-8V-6Cr-4Mo-4Zr
AMS 4983, 4984, 4987
Ti-10V-2Fe-3Al
ASTM Grade 21
Ti-15Mo-3Nb-3Al-2Si
AMS 4914
Ti-15V-3Cr-3Sn-3Al
The Metastable Titanium Beta Alloys are heat treatable by solution treatment and ageing. Fully stable beta alloys can only be annealed.
Applications
Aerospace,
Standards
AMS 4914, AMS 4983, AMS 4984, AMS 4987, ASTM Grade 19, ASTM Grade 21
Forms Available
Forgings
Titanium Alpha-Beta Alloys
Titanium Alpha Beta alloys are heat treatable and most of them are also weldable. The typical properties of Titanium Alpha Beta Alloys are:
Medium to high strength levels;
High temperature creep strength is not as less than most alpha alloys;
Limited cold forming but hot forming qualities are normally good;
The most commonly used Titanium Alpha Beta Alloy is Ti 6Al-4V. Titanium 6Al-4V has been developed in many variations of the basic formulation for numerous and widely differing applications.
Other Titanium Alpha Beta Alloys include: 6Al-4V-ELI 6Al-6V-2Sn 6Al-2Sn-4Zr-2Mo 3Al-2.5V 8Mn
Applications
Aircraft and aircraft turbine parts, Chemical processing equipment, Marine hardware, Prosthetic devices
Standards
ASME SB-265, AMS 4911, ASME SB-348, AMS 4928, AMS 4965, AMS 4967, AMS 4981, MIL-T-9047, AMS 4930, AMS 4971, AMS 4907, ASTM F 136, MIL-T-9046, AMS 4918, DMS1879/2237, AMS 4908, AMS 4943, ASTM B348, AMS 4975, MIL-T-9047 G, AMS 4928, BMS 7-348, DMS 1570, AMS 4976, AMS 4920, AMS 4934
Forms Available
Bar, Fittings, Flanges, Forgings, Pipe, Plate, Sheet, Tube, Wire
Titanium Metals
Titanium Specifications
Titanium Grades
CP4 – Grade 1
CP3- Grade 2
Titanium CP2 – Grade 3
CP1 – Grade 4
Grade 7
Grade 11 – CP Ti-0.15Pd
Grade 5 – Titanium 6Al-4V
Grade 6 – Titanium 5Al-2.5Sn
Grade 9 – Titanium 3Al-2.5V
Grade 12 – Ti-0.3-Mo-0.8Ni
Grade 19 – Titanium Beta C
Grade 23 – Titanium 6Al-4V ELI
6Al-6V-2Sn
6Al-2Sn-4Zr-2Mo
6Al-2Sn-4Zr-6Mo
8Al-1Mo-1V
10V-2Fe-3Al
15V-3Cr-3Sn-3Al
Alpha Alloys
Beta Alloys
Alpha-Beta Alloys
Titanium Dioxide TiO2
Titanium Applications
Titanium Sheets
Titanium Plates
Titanium Wire
Titanium Tubes & Tubing
Titanium Round Bar
Titanium Pipe
We stock and sell Commercially Pure Titanium and Titanium Alloys in a broad range of forms and sizes. We can deliver production quantities in 90-120 days.
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