| Customization: | Available |
|---|---|
| Type: | Titanium Bars |
| Application: | Industrial, Medical, Chemical Industry, Aviation |
|
Still deciding? Get samples of US$ 1/kg
Request Sample
|
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
| Material | Titanium rod and bar Gr1 Gr2 Gr7 Gr12 |
| Standard | ASTM B348, ASTM SB348, AMS 4921, AMS 4902 |
| Dimensions | EN, ASTM, JIS, ASME, BS, AISI |
| Diameter Range | 0.125″ - 14″ (3.175mm - 355.6mm), custom |
| Length Range | Up to 240″ (6096mm), custom |
| Finish | Cold (bright) drawn, centreless ground, hot rolled, smooth turned, peeled, slit rolled edge, hot rolled annealed, Rough Turned, Bright, Polish, Grinding, Centreless Ground & Black |
| Surface Finish | Cold drawn, Centerless Ground, Polished, Or Rough Turned, Black, NO.4 Finish, BA Finish, Matt Finish, etc. |
| Condition | Hardened & tempered, annealed |
| Tolerance | Diameter tolerance: +/- 0.005″ (0.127mm), length tolerance: +/- 0.125″ (3.175mm) |
| Form | Titanium square bars, titanium ingots, titanium round bars, rectangular titanium bars, triangular titanium bars, forged titanium bars, titanium hexagonal bars, etc. |
At Daxun Alloys, we stock a variety of high-quality Grade 1, Grade 2, and Grade 5 Titanium Rods in diverse diameters to cater to your project needs, from general industrial applications to specialized military aerospace purposes. Our inventory includes Titanium Alloy Rods ranging from 1mm to 300mm in diameter, and we accept custom orders for larger sizes. Certified to ASTM B348 and ASTM B381, our products stand for quality and reliability. Reach out to Daxun for a quote or inquiries, and experience exceptional customer service and premium titanium rods.
Daxun boasts a comprehensive technology cycle, from raw material processing to the production of high-quality finished products with advanced mechanical processing. Our extensive service center network stocks a wide range of bar products, enabling swift off-the-shelf delivery of common sizes and alloys. We also offer custom sizing and can set up stocking programs for quick turnaround on just-in-time orders, even for quantities below the mill minimum.
Our advanced forming capabilities include state-of-the-art radial forging machines, cutting-edge heat treatment and melting furnaces, and modern rolling mills for crafting titanium bars. Additionally, we employ a unique hydroforming process for manufacturing intricate parts with precision.
Daxun employs advanced heat treatment furnace equipment for titanium alloy bars and titanium rod heat treatment, ensuring material stability and optimal performance, making Daxun a trusted partner for your titanium needs.
Daxun titanium rods are produced utilizing the world's most advanced electron beam cooling furnace, which significantly reduces impurities during the smelting process, thereby enhancing the overall performance of the finished titanium rods.
In-depth Look at the Chemical Composition of (Ti 6AL-4V) Grade 5 Titanium Rods
| Chemical Composition: | |||
| Symbol | Element | Min % | Max % |
| Al | Aluminum | 5.50% | 6.75% |
| V | Vanadium | 3.50% | 4.50% |
| Fe | Iron | 0.30% | |
| O | Oxygen | 0.20% | |
| C | Carbon | 0.08% | |
| N | Nitrogen | 0.05% | |
| H | Hydrogen | 0.01% | |
| Y | Yttrium | 0.01% | |
| Other, each | 0.10% | ||
| Other, total | 0.40% | ||
| Ti | Titanium | Remainder | |
| Physical Properties | Metric | English | Comments |
| Density | 4.43 g/cc | 0.16 lb/in³ | |
| Mechanical Properties | |||
| Hardness, Brinell | 334 | 334 | Estimated from Rockwell C. |
| Hardness, Knoop | 363 | 363 | Estimated from Rockwell C. |
| Hardness, Rockwell C | 36 | 36 | |
| Hardness, Vickers | 349 | 349 | Estimated from Rockwell C. |
| Tensile strength | min. 895MPa | 129810 psi | |
| Yield strength | min. 828MPa | 120090 psi | |
| Elongation at Break | min.10 % | 10 % | |
| Reduction of Area | min.25 % | 25 % | |
In-depth Look at the Chemical Composition of Grade 2 Titanium Rods
| Element | Weight % |
| C | ≤0.08 |
| O | ≤0.25 |
| N | ≤0.03 |
| H | ≤0.015 |
| Fe | ≤0.30 |
| *OEE | ≤0.10 |
| *OET | ≤0.40 |
| Ti | Remaining |
Comprehensive Analysis of the Mechanical Properties of Grade 2 Titanium RodsComprehensive Analysis of the Mechanical Properties of Grade 2 Titanium Rods
| Alloy | UNS Designation | Spec. | Tensile Strength (min.) | Yield Strength 0.2% Offset (min.) | Elongation in 2 inches (min.) | Max Hardness | Modulus of Elasticity (x106 psi) | Mean Coefficient of Thermal Expansion IN./IN./°F x 10-6) | Thermal Conductivity (BTU-in/ft2-h-°F) | ||||
| psi | MPa | ksi | psi | MPa | ksi | % | |||||||
| Grade 2 Titanium | R50400 | B338 | 50,000 | -345 | 50 | 40,000- | (276-448) | 40-65 | 20 | - | 16 | 5.1 | 144 |
| 50,000 | |||||||||||||
| Element | Minimum (weight %) | Maximum (weight %) | Typical (weight %) |
| Fe | 0.2 | ||
| O | 0.18 | ||
| C | 0.08 | ||
| N | 0.03 | ||
| H | 0.015 | ||
| Ti | Balance |
| Density | |
| lb/in3 | g/cm3 |
| 0.163 | 4.51 |
| Tensile Strength | |
| ksi | MPa |
| 35 min | 240 min |
| Yield Strength | |
| ksi | MPa |
| 20 min | 138 min |
| Hardness | |
| 70 HRC max | |
| Elongation | |
| 24% min |
| Element | Minimum (weight %) | Maximum (weight %) | Typical (weight %) |
|---|---|---|---|
| Al | 2.5 | 3.5 | |
| V | 2.0 | 3.0 | |
| Fe | 0.25 | ||
| O | 0.15 | ||
| C | 0.08 | ||
| N | 0.03 | ||
| H | 0.015 | ||
| Ti | Balance |
| CP GR1 Titanium rods PHYSICAL PROPERTIES | |||
| Physical Properties | Metric | English | Comments |
| Density | 4.50 g/cc | 0.163 lb/in³ | |
| a Lattice Constant | 2.95 Å @Temperature 25.0 °C | 2.95 Å @Temperature 77.0 °F | alpha phase |
| 3.29 Å @Temperature 900 °C | 3.29 Å @Temperature 1650 °F | beta phase | |
| c Lattice Constant | 4.683 Å | 4.683 Å @Temperature 77.0 °F | c/a = 1.587 |
| Mechanical Properties | Metric | English | Comments |
| Hardness, Brinell | 120 | 120 | annealed |
| Hardness, Knoop | 132 | 132 | Estimated from Brinell. |
| Hardness, Rockwell B | 70 | 70 | annealed |
| Hardness, Vickers | 122 | 122 | Estimated from Brinell. |
| Tensile Strength | 124 - 138 MPa @Temperature 427 °C | 18000 - 20000 psi @Temperature 801 °F | |
| 152 - 179 MPa @Temperature 316 °C | 22000 - 26000 psi @Temperature 601 °F | ||
| 193 - 207 MPa @Temperature 204 °C | 28000 - 30000 psi @Temperature 399 °F | ||
| Tensile Strength, Ultimate | 240 MPa | 34800 psi | |
| Tensile Strength, Yield | 170 - 310 MPa | 24700 - 45000 psi | |
| 76.0 - 90.0 MPa @Temperature 427 °C | 11000 - 13100 psi @Temperature 801 °F | 0.2% offset | |
| 83.0 - 103 MPa @Temperature 316 °C | 12000 - 14900 psi @Temperature 601 °F | 0.2% offset | |
| 110 - 124 MPa @Temperature 204 °C | 16000 - 18000 psi @Temperature 399 °F | 0.2% offset | |
| Elongation at Break | 24% | 24% | |
| 25 - 30 % @Temperature 427 °C | 25 - 30 % @Temperature 801 °F | ||
| 30 - 35 % @Temperature 316 °C | 30 - 35 % @Temperature 601 °F | ||
| 40 - 50 % @Temperature 204 °C | 40 - 50 % @Temperature 399 °F | ||
| Reduction of Area | 35% | 35% | |
| Tensile Modulus | 103 GPa | 14900 ksi | |
| Compressive Modulus | 110 GPa | 16000 ksi | |
| Poissons Ratio | 0.37 | 0.37 | |
| Shear Modulus | 45.0 GPa | 6530 ksi | |
| Charpy Impact | 310 J | 229 ft-lb | V-notch |
| Impact Test | 136 J | 100 ft-lb | Impact Strength |
| Coefficient of Friction, Dynamic | 0.68 | 0.68 | Ti sliding on Ti; 300 m/min |
| 0.8 | 0.8 | Ti sliding on Ti; 40 m/min | |
| CP GR2 Titanium rods PHYSICAL PROPERTIES | |
| Density | Magnetic Permeability |
| 0.163 lbs/in-3 | Nonmagnetic |
| 4.51 g/cm-3 | Electrical Resistivity |
| Beta Transus (+/-25°F, +/--3.9°C) | 21 µΩ/in |
| 1680°F | 0.53 µΩ/m |
| 915°C | Elastic Modulus |
| Thermal Conductivity | 15.2-17.4 Msi |
| 12.60 BTU hr-1ft-1 °F-1 | 105-120 GPa |
| 21.79 W m-1 °C-1 | Typical values at room temperature of about 68-78°F (20-25°C) |
| GR5 TI6AL4V Titanium rods PHYSICAL PROPERTIES | |||
| Physical Properties | Metric | English | Comments |
| Density | 4.43 g/cc | 0.16 lb/in³ | |
| Mechanical Properties | |||
| Hardness, Brinell | 334 | 334 | Estimated from Rockwell C. |
| Hardness, Knoop | 363 | 363 | Estimated from Rockwell C. |
| Hardness, Rockwell C | 36 | 36 | |
| Hardness, Vickers | 349 | 349 | Estimated from Rockwell C. |
| Tensile strength | min. 895MPa | 129810 psi | |
| Yield strength | min. 828MPa | 120090 psi | |
| Elongation at Break | min.10 % | 10 % | |
| Reduction of Area | min.25 % | 25 % | |
| Modulus of Elasticity | 113.8 GPa | 16500 ksi | |
| Compressive Yield Strength | 970 MPa | 141000 psi | |
| Notched Tensile Strength | 1450 MPa | 210000 psi | Kt (stress concentration factor) = 6.7 |
| Ultimate Bearing Strength | 1860 MPa | 270000 psi | e/D = 2 |
| Bearing Yield Strength | 1480 MPa | 215000 psi | e/D = 2 |
| Poisson's Ratio | 0.342 | 0.342 | |
| Charpy Impact | 17 J | 12.5 ft-lb | V-notch |
| Fatigue Strength | 240 MPa | 34800 psi | at 1E+7 cycles. Kt (stress concentration factor) = 3.3 |
| Fatigue Strength | 510 MPa | 74000 psi | Unnotched 10,000,000 Cycles |
| Fracture Toughness | 75 MPa-m½ | 68.3 ksi-in½ | |
| Shear Modulus | 44 GPa | 6380 ksi | |
| Shear Strength | 550 MPa | 79800 psi | Ultimate shear strength |
| Electrical Properties | |||
| Electrical Resistivity | 0.000178 ohm-cm | 0.000178 ohm-cm | |
| Magnetic Permeability | 1.00005 | 1.00005 | at 1.6kA/m |
| Magnetic Susceptibility | 3.30E-06 | 3.30E-06 | cgs/g |
| Thermal Properties | |||
| CTE, linear 20°C | 8.6 µm/m-°C | 4.78 µin/in-°F | 20-100ºC |
| CTE, linear 250°C | 9.2 µm/m-°C | 5.11 µin/in-°F | Average over the range 20-315ºC |
| CTE, linear 500°C | 9.7 µm/m-°C | 5.39 µin/in-°F | Average over the range 20-650ºC |
| Specific Heat Capacity | 0.5263 J/g-°C | 0.126 BTU/lb-°F | |
| Thermal Conductivity | 6.7 W/m-K | 46.5 BTU-in/hr-ft²-°F | |
| Melting Point | 1604 - 1660 °C | 2920 - 3020 °F | |
| Solidus | 1604 °C | 2920 °F | |
| Liquidus | 1660 °C | 3020 °F | |
| Beta Transus | 980 °C | 1800 °F | |
In-Depth Introduction of Premium Grade 5 and Grade 2 Titanium Rods
Grade 5 Titanium Rod
Daxun At Jiangsu Daxun Alloy Co., Ltd., we take pride in our cutting-edge production facility in China, where we manufacture high-precision Grade 5 titanium bars. Our superior surface finish, tight tolerances, impeccable straightness, and exceptional material quality set us apart, providing you with unmatched technological leadership and consistent production processes. These advantages apply across a broad spectrum of diameters and materials. Additionally, our extensive stock program at our service center ensures just-in-time delivery for your needs.
AMS 4928 - Bars, Forgings, and Forging Stock (Annealed)
AMS 4965 - Bars, Forgings (Solution Treated and Aged)
AMS 4967 - Bars, Forgings (Annealed, Heat Treatable)
Rapid quenching of small sections in the solution treated and aged condition yields optimal properties, whereas larger sections or delayed quenching may result in suboptimal properties.
Typical hardness in the annealed condition ranges from Rockwell C 30-34, and in the solution and aged condition, Rockwell C 35-39.
Ti-6Al-4V, Grade 5 alloy bars can be machined using methods similar to those used for austenitic stainless steel, employing slow machining speeds, high feeds, rigid tools, and copious amounts of non-chlorinated cutting fluids.
Ti-6Al-4V, Grade 5 alloy rod is exceptionally weldable in both the annealed and solution-aged conditions, with aging being precisely achieved during post-weld heat treatment. To maintain the alloy's integrity, it's imperative to prevent contamination from oxygen, nitrogen, and hydrogen. Fusion welding should be conducted in an inert gas-filled chamber or with inert gas shielding to protect the molten metal and adjacent heated zones. Advanced techniques such as spot, seam, and flash welding can be utilized without the necessity of a protective atmosphere.
Ti-6Al-4V, Grade 5 titanium alloy rod is susceptible to hydrogen contamination from improper pickling, and to oxygen, nitrogen, and carbon contamination during forging, heat treating, and brazing. Such contamination can degrade the alloy's ductility, negatively impacting its notch sensitivity and forming properties.
We manufacture bars to meet your exact specifications.
Our bars feature excellent surface finish, straightness, perfect roundness, and the tightest diameter tolerances (as per ISO 286-2 up to h5). They are available in straightened, ground, and polished conditions.
Sawing
Band saws (up to Ø510 mm)
Bench band saws (up to 6,000 x 3,000 x 400 mm)
High-performance sawing machines for precision cutting
Single or double-sided machining
Chamfered at 90° (45°)
Pointed at 60° (30°)
Flat-end machining
Centered machining
ASTM (American Society for Testing and Materials Standards)
AMS (American Aerospace Materials Standards)
NACE (National Association of Corrosion Engineers International Standards)
ASME (American Society of Mechanical Engineers Standards)
GB (Chinese National Standards)
GJB (Chinese National Military Standards)
ISO (International Standards)
DIN (German Standards)
EN (European Standards)
API (American Petroleum Institute Standards)
Non-destructive testing ensures 100% component integrity
Testing Methods
Eddy current testing and eddy current *** detection
Defect-free surface (level 4)
Flat bottom hole diameter 0.7 mm and 0.4 mm
Blind area can be cut off according to fixed length >Test to the end of the bar
Full diameter ultrasonic testing
Purchase orders should detail quantity, grade, type or category, API5L reference, and measurements such as thickness, width, and length. Include any attachments or additional requirements related to chemical composition, mechanical properties, heat treatment, additional testing, manufacturing process, surface coating, or end finish. Contact Daxun now for prompt email responses.
Titanium should be avoided with strong reducing acids, fluoride solutions, pure oxygen, or anhydrous ***.
Grade 2 titanium showcases commendable corrosion resistance in various environments. As seen in Table 1, CP titanium resists general corrosion effectively in many media, including:
Compared to stainless steels, CP titanium demonstrates superior resistance to crevice corrosion in salt solutions. It remains resistant at temperatures below 80°C (176°F), regardless of pH, even in super chlorinated conditions.
Grade 2 titanium is highly resistant to stress corrosion (SCC) cracking in hot chloride solutions and remains immune to SCC in seawater.
Titanium exhibits excellent resistance to erosion in flowing
seawater at velocities up to 130 ft/sec (40 m/sec), showing negligible material degradation. The presence of abrasive particles like sand has a minimal impact on corrosion.
Titanium shows minimal hydrogen absorption in seawater, even at elevated temperatures. Significant hydrogen absorption occurs only when three conditions are met:
Unlock the unparalleled benefits of titanium alloys with Jiangsu Daxun Alloy Co., Ltd. Our titanium rods are renowned for their exceptional resistance to microbiologically influenced corrosion. With no toxicity towards marine life, our titanium rods do face biofouling in seawater, which can be effectively managed through chlorination or enhanced water velocity through heat exchangers.
Titanium stands out among materials for its unwavering fatigue performance, even in seawater environments. Astonishingly, both the fatigue endurance limits and *** growth rates remain consistent, whether tested in air or seawater, ensuring dependable durability and reliability.
In the galvanic series, titanium occupies a noble position near stainless steels, typically acting as the cathode when paired with other metals. This ensures that titanium itself is immune to galvanic corrosion, although it may accelerate corrosion in the other metals. Titanium's passivity is further enhanced when coupled with more noble metals such as graphite.
Our Grade 2 Titanium Rod exhibits remarkable resistance to fatigue property degradation in seawater. The fatigue endurance limits and *** growth rates are consistent in both air and seawater, making it an ideal choice for marine applications.
The CP2 Grade Titanium Rod from Daxun is highly weldable, provided specific precautions are followed. An inert gas shield is essential on both the OD and ID due to titanium's reactivity. The rod must also be pristine, free from any grease or oil contamination.
Typically, the Grade 2 Titanium Rod is welded using manual or automatic TIG welding, with or without filler wire. To minimize the heat-affected zone, low heat input is recommended. Post-weld heat treatment is generally not required for these rods.
| Working material: | 3.7035 / UNS R50400 |
| Diameter: | 3 - 400 mm |
| Lengths: | 2.000 - 4.000 mm |
| Versions: | Rolled, forged, annealed |
| Surfaces: | Turned, peeled, polished |
| Standards: | ASTM B 348, ASME SB 348, DIN 17862, ASTM F 67, NACE MR 0175, ISO 1515156-3, ISO 5832-2 |
Looking for Grade 2 Titanium Alloy Rods (3,7035)? At Jiangsu Daxun, you can purchase customized titanium rods tailored to your project's specifications. Trust our extensive experience as a reliable supplier to support you every step of the way.
We offer Grade 2 Titanium bars in diameters ranging from 2.0 mm to 400 mm. Execution and tolerances may vary, with smaller diameters delivered centerless ground to h7 tolerances, while larger diameters adhere to h9 or h11 tolerances.
To ensure a seamless purchasing experience with Jiangsu Daxun Alloy Co., Ltd., your purchase orders should comprehensively detail the following: quantity, grade, type or category, API5L reference, thickness, width, length, and any supplementary attachments or specific requirements. These might include chemical composition, mechanical properties, heat treatment procedures, additional testing criteria, manufacturing processes, surface coatings, or desired end finishes. Contact us at Daxun today, and rest assured, we will respond to your inquiry at the earliest convenience.
Q1: What products can you offer?
A: We offer a broad range of general steel types including 310S, 316L, 304, 304L, 201, 904L, 316H, and 316.
Additionally, we provide 400 series steels and duplex stainless steels such as 2205, 2304, 2101, 2507, as well as high-nickel alloys like 904L, 800H, and 600H.
Q2. Can you produce products according to my own drawings?
Absolutely, we can manufacture products according to your specific drawings to ensure your utmost satisfaction.
Q3. How does your factory handle quality control?
Quality is our top priority. We rigorously control quality from the start to the finish of the production process.
Q4. Can I request changes in packaging and transportation?
Yes, we can modify packaging and transportation according to your requests.
Please note that you will need to cover any additional costs and spreads incurred during this process.
Q5. How does your factory handle quality control?
Quality is our top priority. We rigorously manage quality from the beginning to the end of production.
Q6. What is the delivery time?
A: Our delivery time is typically 7 to 20 working days after payment confirmation.
For urgent orders, we can expedite production to meet your timeline.
Q7. What are your payment terms?
A: 100% T/T in advance or via Western Union for smaller orders.
B: 30% T/T upfront, with the remaining 70% before shipment.
C: 100% Irrevocable LC at sight for larger orders.
Q8: Can you provide Deep Drawing Quality (DDQ) materials?
A: Yes, we can. Our materials are suitable for stainless steel pots, sinks, bowls, etc. Provide your requirements, and we'll adjust the mechanical properties to meet them.
Q9: How can I get a sample?
A: FREE samples are available for your evaluation. For small pieces, we may cover courier costs based on the situation.
Q10: Which countries have you exported to?
A: We have exported stainless steel materials to countries including Vietnam, Thailand, Turkey, Russia, Morocco, Korea, India, Pakistan, UAE, Ukraine, and more.
Q11: How can I visit your company?
A: Fly to Guangzhou Baiyun International Airport, and we will pick you up from there.
){kind=link}