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Nickel bar is a solid, straight round shape that is made of Nickel in a high-purity form. Nickel alloy bars are made with alloying correct chemical composition of different metals to get the uniform and required alloy. This chemical element is advantageous in many metallurgical applications. Nickel & Nickel alloy bars are tough, ferromagnetic, corrosion-resistant, ductile, malleable, and heat-resistant and are used in multiple industries like aerospace, defence, chemical, automotive, medical etc.
| Standard | ASTM B160 / ASME SB 160 |
| Size | 10mm – 150mm |
| Grade | Nickel 200, Nickel 201, Monel 400, Monel K500, Inconel 625, Inconel 800, Inconel 825, Hastalloy C276, Alloy20 |
| Type | Round |
| Form | Straight , Coil |
| Finish | Bright |
| Length | Random Length, Custom cut length |
We are offering Monel Alloy Round Bar to our clients. Contact us for more consultation and orders.
Pay Mode Terms: L/C (Letter Of Credit),T/T (Bank Transfer),D/P,D/A
Production Capacity: 70,000 Metric Tons
Packaging Details: As Per Buyer's Requirement
Monel 400 (UNS N04400): The most widely used grade, known for its high strength and excellent resistance to corrosion, including sea water.
Monel K-500 (UNS N05500): A precipitation-hardenable alloy with added aluminum and titanium for increased strength and hardness.
| Property | Monel 400 | Monel K-500 |
|---|---|---|
| Material | Nickel-Copper Alloy (UNS N04400) | Nickel-Copper Alloy (UNS N05500) |
| Standard | ASTM B164 | ASTM B865 |
| Grades Available | Monel 400 | Monel K-500 |
| Composition | Ni: 63% min, Cu: 28-34%, Fe: 2.5% max | Ni: 63% min, Cu: 27-33%, Al: 2.30-3.15%, Ti: 0.35-0.85% |
| Diameter Range | 6 mm to 300 mm | 6 mm to 300 mm |
| Length | 3 meters to 6 meters (custom lengths available) | 3 meters to 6 meters (custom lengths available) |
| Surface Finish | Black, polished, centerless ground | Black, polished, centerless ground |
| Tensile Strength | 70 ksi (483 MPa) | 160 ksi (1100 MPa) |
| Yield Strength | 28 ksi (193 MPa) | 115 ksi (790 MPa) |
| Elongation | 35% | 20% |
| Density | 8.80 g/cm³ | 8.44 g/cm³ |
| Melting Point | 1300-1350°C | 1300-1350°C |
| Corrosion Resistance | Excellent in seawater, acids, alkalis | Excellent in seawater, acids, alkalis |
| Hardness (HB) | 75-90 HB | 150-200 HB |
| Magnetic Properties | Non-magnetic | Non-magnetic |
| Applications | Marine engineering, chemical processing, aerospace | Marine engineering, chemical processing, aerospace |
| Weldability | Good | Fair |
| Special Features | High strength, excellent corrosion resistance, retains strength at elevated temperatures | Precipitation hardenable, higher strength and hardness compared to Monel 400 |
Inconel 600: Nickel-chromium alloy with good oxidation and corrosion resistance at higher
temperatures.
Inconel 625: Nickel-chromium-molybdenum-niobium alloy known for excellent fatigue and thermal-fatigue
strength, oxidation, and corrosion resistance.
High-Temperature Strength: Inconel alloys maintain their strength and structural integrity at high
temperatures, making them suitable for extreme environments.
Oxidation and Corrosion Resistance: Inconel alloys exhibit excellent resistance to oxidation and
corrosion, even in aggressive environments.
| Property | Specification |
|---|---|
| Material | Inconel (Nickel-based superalloy) |
| Common Grades | Inconel 600, Inconel 625, Inconel 718, Inconel 825 |
| Composition | Primarily Nickel and Chromium with Molybdenum, Iron, Cobalt, Niobium, etc. |
| Diameter Range | Typically from 6mm to 200mm (varies per application) |
| Tensile Strength | Varies by grade |
| - Inconel 600: ~655 MPa | |
| - Inconel 625: ~827 MPa | |
| - Inconel 718: ~1241 MPa | |
| - Inconel 825: ~586 MPa | |
| Yield Strength | Varies by grade |
| - Inconel 600: ~310 MPa | |
| - Inconel 625: ~414 MPa | |
| - Inconel 718: ~1034 MPa | |
| - Inconel 825: ~241 MPa | |
| Hardness | Varies by grade and heat treatment |
| - Inconel 600: ~85 HRB | |
| - Inconel 625: ~30 HRC | |
| - Inconel 718: ~40 HRC | |
| - Inconel 825: ~140 HB | |
| Elongation | Varies by grade |
| - Inconel 600: ~30% | |
| - Inconel 625: ~30% | |
| - Inconel 718: ~12% | |
| - Inconel 825: ~30% | |
| Temperature Resistance | Excellent |
| - Inconel 600: up to 982°C | |
| - Inconel 625: up to 982°C | |
| - Inconel 718: up to 704°C | |
| - Inconel 825: up to 540°C | |
| Corrosion Resistance | Excellent in high-temperature and corrosive environments |
| Creep Resistance | Excellent |
| Formability | Good ductility, can be hot or cold worked |
| Weldability | Generally good, but requires specific techniques to maintain properties |
| Applications | Aerospace, power generation, chemical processing, marine, oil and gas |
| Standard Specifications | AMS, ASTM, BS, DIN, ISO, etc. |
Hastelloy alloys primarily consist of nickel, with significant amounts of chromium, molybdenum, and
other elements such as tungsten, iron, cobalt, and sometimes aluminum and titanium to enhance
specific properties.
Hastelloy C-276: Nickel-molybdenum-chromium alloy with excellent resistance to pitting, stress
corrosion cracking, and oxidizing atmospheres up to 1040°C.
Hastelloy C-22: Nickel-chromium-molybdenum alloy with superior resistance to a wide range of
corrosive environments.
Hastelloy alloys maintain their mechanical properties at elevated temperatures, making them
suitable for high-temperature applications.
| Property | Specification |
|---|---|
| Material | Hastelloy (Nickel-based superalloy) |
| Common Grades | Hastelloy C-276, Hastelloy C-22, Hastelloy B-2, Hastelloy X |
| Composition | Primarily Nickel, Chromium, Molybdenum, with Iron, Tungsten, Cobalt, etc. |
| Diameter Range | Typically from 6mm to 200mm (varies per application) |
| Tensile Strength | Varies by grade |
| - Hastelloy C-276: ~800 MPa | |
| - Hastelloy C-22: ~690 MPa | |
| - Hastelloy B-2: ~760 MPa | |
| - Hastelloy X: ~750 MPa | |
| Yield Strength | Varies by grade |
| - Hastelloy C-276: ~355 MPa | |
| - Hastelloy C-22: ~310 MPa | |
| - Hastelloy B-2: ~350 MPa | |
| - Hastelloy X: ~340 MPa | |
| Hardness | Varies by grade and heat treatment |
| - Hastelloy C-276: ~200 HB | |
| - Hastelloy C-22: ~180 HB | |
| - Hastelloy B-2: ~187 HB | |
| - Hastelloy X: ~220 HB | |
| Elongation | Varies by grade |
| - Hastelloy C-276: ~40% | |
| - Hastelloy C-22: ~50% | |
| - Hastelloy B-2: ~40% | |
| - Hastelloy X: ~50% | |
| Temperature Resistance | Excellent |
| - Hastelloy C-276: up to 1040°C | |
| - Hastelloy C-22: up to 1250°C | |
| - Hastelloy B-2: up to 870°C | |
| - Hastelloy X: up to 1200°C | |
| Corrosion Resistance | Exceptional in both oxidizing and reducing environments |
| Creep Resistance | Good |
| Formability | Good ductility, can be hot or cold worked |
| Weldability | Generally good, but requires specific techniques to maintain properties |
| Applications | Chemical processing, aerospace, power generation, marine, oil and gas |
| Standard Specifications | ASTM B574, ASME SB574, DIN 17752, ISO 9723, etc. |
Super Duplex stainless steel Bars are based around an alloying addition of 25% chromium, whereas Duplex stainless steels are based around an alloying addition of 22% chromium. By increasing the chromium content, the level of pitting corrosion resistance is also increased. As the duplex name suggests, this family of alloys have a microstructure made up of both austenitic and ferritic grains of steel and widely used in marine, oil & gas production, shipping & coastal developments.
| Standard | ASTM A276 / ASME SA 276 |
| Size | 10mm – 150mm |
| Grade | F51 (31803), F53 (32750), F55 (32760), F61 (32205) |
| Type | Round, Square, Hex |
| Form | Straight , Coil |
| Finish | Bright |
| Length | upto 6000mm, Cut Length |
Stainless steel are manufactured either by hot rolling or cold drawing. They come in various shapes and sizes round, square & hex depending upon its use. These bars are used for its strength and corrosion resistance. The bars are most commonly used for manufacturing of valves, shafts, machine tools, fasteners. It is also used in various industry like shipbuilding, defence, cement, fertilizers, paper & pulp, medical, earth moving equipment, construction etc.
| Standard | ASTM A276 / ASME SA276 |
| Size | 5mm – 250mm |
| Grade | 304, 304L, 304H, 310, 310S, 316, 316L, 316ti, 317, 317L, 321, 347, 904L, SMO254 |
| Type | Round, Square, Hex |
| Form | Straight , Coil |
| Finish | Bright |
| Length | upto 6000mm, Cut Length |
Carbon steel round bars are made from carbon steel, which is an alloy of iron and carbon. These
bars are commonly used in various industries due to their versatility, strength, and affordability.
Carbon steel round bars are available in different grades, each suited to specific applications
and offering distinct mechanical properties.
Carbon steel round bars can be hot worked to achieve desired shapes and properties.
| Property | Specification |
|---|---|
| Material | Carbon Steel |
| Common Grades | A36, 1018, 1045, 1060, 1095 |
| Composition | Iron with varying carbon content (up to 2.1%), with small amounts of manganese, silicon, and other elements |
| Diameter Range | Typically from 6mm to 200mm (varies per application) |
| Tensile Strength | Varies by grade |
| - A36: ~400 MPa | |
| - 1018: ~440 MPa | |
| - 1045: ~585 MPa | |
| - 1060: ~620 MPa | |
| - 1095: ~850 MPa | |
| Yield Strength | Varies by grade |
Aluminum round bars are widely used in various industries due to their excellent properties,
including low density, high strength-to-weight ratio, excellent corrosion resistance, and good
machinability. They are available in various grades and tempers, making them suitable for a wide
range of applications.
Aluminum has a low density, making it ideal for applications where weight is a critical factor.
Aluminum round bars can be hot worked to form various shapes.
| Property | Specification |
|---|---|
| Material | Aluminum |
| Common Grades | 6061, 6063, 7075, 2024, 1100 |
| Composition | Varies by grade, typically includes elements like Magnesium, Silicon, Copper, Zinc |
| Diameter Range | Typically from 6mm to 200mm (varies per application) |
| Tensile Strength | Varies by grade and temper |
| - 6061-T6: ~310 MPa | |
| - 6063-T6: ~240 MPa | |
| - 7075-T6: ~570 MPa | |
| - 2024-T3: ~470 MPa | |
| - 1100-H14: ~110 MPa | |
| Yield Strength | Varies by grade and temper |
| - 6061-T6: ~275 MPa | |
| - 6063-T6: ~210 MPa | |
| - 7075-T6: ~505 MPa | |
| - 2024-T3: ~325 MPa | |
| - 1100-H14: ~105 MPa | |
| Hardness | Varies by grade and heat treatment |
| - 6061-T6: ~95 HB | |
| - 6063-T6: ~73 HB | |
| - 7075-T6: ~150 HB | |
| - 2024-T3: ~120 HB | |
| - 1100-H14: ~35 HB | |
| Elongation | Varies by grade and temper |
| - 6061-T6: ~12% | |
| - 6063-T6: ~12% | |
| - 7075-T6: ~11% | |
| - 2024-T3: ~20% | |
| - 1100-H14: ~25% | |
| Thermal Conductivity | Excellent |
| - 6061: ~167 W/m·K | |
| - 6063: ~201 W/m·K | |
| - 7075: ~130 W/m·K | |
| - 2024: ~121 W/m·K | |
| - 1100: ~222 W/m·K | |
| Corrosion Resistance | Excellent, especially with protective coatings and anodizing |
| Machinability | Good, especially in grades like 6061 and 2024 |
| Weldability | Generally good, with specific techniques for each grade |
| Applications | Aerospace, automotive, construction, marine, general engineering |
| Standard Specifications | ASTM B211, AMS-QQ-A-225, ASTM B221, etc. |
Titanium round bars are popular materials known for their exceptional strength-to-weight ratio,
corrosion resistance, and biocompatibility. These bars are widely used in industries such as
aerospace, medical, marine, and chemical processing where high-performance and durability are
crucial.
Titanium offers high strength comparable to steel but with approximately half the density, making
it ideal for lightweight applications.
Titanium round bars can be hot worked at elevated temperatures to achieve specific shapes.
| Property | Specification |
|---|---|
| Material | Titanium |
| Common Grades | Grade 2, Grade 5 (Ti-6Al-4V), Grade 7, Grade 23 (Ti-6Al-4V ELI) |
| Composition | Primarily Titanium with small amounts of alloying elements like Aluminum, Vanadium, and others |
| Diameter Range | Typically from 6mm to 200mm (varies per application) |
| Tensile Strength | Varies by grade and condition |
| - Grade 2: ~370 MPa to 540 MPa | |
| - Grade 5: ~895 MPa to 1100 MPa | |
| - Grade 7: ~345 MPa to 600 MPa | |
| - Grade 23: ~860 MPa to 1100 MPa | |
| Yield Strength | Varies by grade and condition |
| - Grade 2: ~275 MPa to 450 MPa | |
| - Grade 5: ~830 MPa to 1000 MPa | |
| - Grade 7: ~240 MPa to 460 MPa | |
| - Grade 23: ~800 MPa to 1000 MPa | |
| Hardness | Varies by grade and condition |
| - Grade 2: ~120 HB | |
| - Grade 5: ~334 HB | |
| - Grade 7: ~116 HB | |
| - Grade 23: ~334 HB | |
| Elongation | Varies by grade and condition |
| - Grade 2: ~20% to 25% | |
| - Grade 5: ~10% to 15% | |
| - Grade 7: ~20% to 25% | |
| - Grade 23: ~10% to 15% | |
| Thermal Conductivity | Low but varies with alloy composition |
| - Grade 2: ~20 W/m·K | |
| - Grade 5: ~6 W/m·K | |
| - Grade 7: ~20 W/m·K | |
| - Grade 23: ~6 W/m·K | |
| Corrosion Resistance | Excellent in various environments, including seawater and chemical solutions |
| Machinability | Relatively good, especially in annealed or solution-treated conditions |
| Weldability | Generally good, with specific techniques for each grade |
| Applications | Aerospace, medical, marine, chemical processing, sports equipment |
| Standard Specifications | ASTM B348, ASTM F136, AMS 4928, MIL-T-9047, etc. |
Nimonic alloys are primarily composed of nickel and chromium, with additions of other elements
such as cobalt, titanium, aluminum, and molybdenum to enhance specific properties.
Nimonic 75: Nickel-chromium alloy with good corrosion and oxidation resistance, used in gas
turbine engineering.
Nimonic 80A: Nickel-chromium alloy with titanium and aluminum, known for high strength and
resistance to high-temperature oxidation.
Nimonic 90: Nickel-chromium-cobalt alloy with titanium and aluminum, used in high-stress,
high-temperature applications.
Nimonic 105: Enhanced version with higher strength at elevated temperatures, used in advanced
aerospace and turbine applications.
| Property | Specification |
|---|---|
| Material | Nimonic |
| Common Grades | Nimonic 75, Nimonic 80A, Nimonic 90, Nimonic 105, Nimonic 263, Nimonic 901 |
| Composition | Nickel (Ni), Chromium (Cr), Cobalt (Co), Titanium (Ti), Aluminum (Al), and other alloying elements |
| Diameter Range | Typically from 6mm to 200mm (varies per application) |
| Tensile Strength | Varies by grade |
| - Nimonic 75: ~700 MPa | |
| - Nimonic 80A: ~850 MPa | |
| - Nimonic 90: ~1000 MPa | |
| - Nimonic 105: ~1200 MPa | |
| - Nimonic 263: ~1200 MPa | |
| - Nimonic 901: ~1000 MPa | |
| Yield Strength | Varies by grade |
| - Nimonic 75: ~300 MPa | |
| - Nimonic 80A: ~550 MPa | |
| - Nimonic 90: ~550 MPa | |
| - Nimonic 105: ~800 MPa | |
| - Nimonic 263: ~550 MPa | |
| - Nimonic 901: ~400 MPa | |
| Hardness | Varies by grade and heat treatment |
| - Nimonic 75: ~200 HB | |
| - Nimonic 80A: ~240 HB | |
| - Nimonic 90: ~220 HB | |
| - Nimonic 105: ~250 HB | |
| - Nimonic 263: ~260 HB | |
| - Nimonic 901: ~240 HB | |
| Elongation | Varies by grade |
| - Nimonic 75: ~40% | |
| - Nimonic 80A: ~30% | |
| - Nimonic 90: ~25% | |
| - Nimonic 105: ~20% | |
| - Nimonic 263: ~20% | |
| - Nimonic 901: ~15% | |
| Temperature Resistance | Excellent up to high temperatures, suitable for high-temperature applications |
| Corrosion Resistance | Good resistance to oxidation and corrosion |
| Creep Resistance | Excellent at elevated temperatures |
| Formability | Good, but less than some other nickel alloys |
| Weldability | Generally good, with specific welding techniques required for optimal results |
| Applications | Gas turbine components, aerospace components, high-temperature fasteners, exhaust valves, turbine blades |
| Standard Specifications | AMS 5666, BS HR 403, BS HR 501, DIN 17742, UNS N07080, UNS N07090, UNS N07091, UNS N07093, UNS N07263, UNS N09901, ASTM B637 |
Copper bars are essential elements in any earthing and grounding applications as well as in power applications. Copper bars are popular because they withstand harsh conditions and have strong thermal & electrical conductivity. They are also corrosion resistant and are widely used and are often found on switchboards and industrial electrical installations. While copper has been used as currency over the centuries, it has been a primary tool in construction as well. Copper bars application & uses are in various industries like construction, electrical, marine, engineering, defence, HVAC, aviation, railways etc.
| Size | 5mm to 150mm |
| Type | Round, Square, Hex |
| Length | Straight & Coil form |
Brass bars are the most widely used and least expensive of copper-based alloys. Brass is a popular material for moving parts because of its low surface friction and is available in various grades and bar shapes. They are relatively good corrosion resistant, moderately high strength, and in some compositions exceptionally good ductility and excellent forming characteristics when shaped by pressing, deep drawing, rolling and machining. Brass has a high tensile strength and is easy to machine and are used in making machine parts, gear boxes, valves, bearings, aircraft components, shafts of propeller & bushings.
| Size | 5mm to 200mm |
| Type | Round, Square, Hex |
| Length | Straight |