High Temperature Resistance: Nickel wires can withstand high temperatures without significant degradation, making them ideal for applications in high-temperature environments, such as aerospace and automotive industries.
Electrical Conductivity: Nickel wires have good electrical conductivity, making them suitable for electrical heating elements, resistance wires, and electrical connections.

Specification	EN Standard	Grade	Chemical Composition	Description
Nickel 200	EN 2.4060	UNS N02200	Ni: 99.0% min, Fe: 0.4% max, Cu: 0.2% max, Mn: 0.35% max, C: 0.15% max, S: 0.01% max, Si: 0.1% max	Commercially pure nickel with excellent corrosion resistance and good mechanical properties. Used in chemical processing and food processing.
Nickel 201	EN 2.4061	UNS N02201	Ni: 99.0% min, Fe: 0.2% max, Cu: 0.2% max, Mn: 0.35% max, C: 0.02% max, S: 0.01% max, Si: 0.1% max	Similar to Nickel 200 but with lower carbon content. Better suited for high-temperature applications. Used in aerospace and chemical processing.
Nickel 300	EN 2.4816	UNS N06600	Ni: Balance, Cr: 14.0-17.0%, Fe: 6.0-10.0%, Mo: 2.5-3.5%, C: 0.08% max, Mn: 1.0% max, Si: 0.5% max	Nickel-chromium alloy with high strength and oxidation resistance at elevated temperatures. Used in gas turbines and industrial applications.
Nickel 400	EN 2.4360	UNS N04400	Ni: 63.0-70.0%, Cu: 28.0-34.0%, Fe: 2.5% max, Mn: 2.0% max, Si: 0.5% max, C: 0.3% max	Nickel-copper alloy with excellent corrosion resistance to seawater and various chemicals. Used in marine and chemical processing industries.
Nickel 600	EN 2.4816	UNS N06600	Ni: Balance, Cr: 14.0-17.0%, Fe: 6.0-10.0%, Mo: 0.0%, C: 0.15% max, Mn: 1.0% max, Si: 0.5% max	Nickel-chromium alloy with high strength and oxidation resistance at elevated temperatures. Suitable for high-temperature applications in aerospace and chemical processing.
Nickel 625	EN 2.4856	UNS N06625	Ni: Balance, Cr: 20.0-23.0%, Mo: 8.0-10.0%, Fe: 5.0% max, C: 0.10% max, Mn: 0.5% max, Si: 0.5% max	Nickel-chromium-molybdenum alloy with excellent resistance to oxidation and corrosion at high temperatures. Used in aerospace, chemical processing, and marine applications.
Nickel 718	EN 2.4668	UNS N07718	Ni: Balance, Cr: 17.0-21.0%, Mo: 2.8-3.3%, Fe: 50.0% max, C: 0.08% max, Mn: 0.35% max, Si: 0.35% max	Nickel-chromium-molybdenum alloy with high strength and resistance to heat and corrosion. Used in aerospace, oil & gas, and high-stress applications.

High Temperature Resistance: Hastelloy wires maintain their mechanical properties at elevated temperatures, making them suitable for applications in high-temperature environments such as chemical processing and aerospace.
Excellent Mechanical Properties: Hastelloy wires exhibit high tensile strength, fatigue resistance, and toughness, allowing them to withstand mechanical stress and deformation in demanding applications.
Versatility: Hastelloy wires are versatile and can be fabricated into various shapes and sizes, enabling customization for specific applications in different industries.

Specification	EN Standard	Grade	Chemical Composition	Description
Hastelloy C-276	EN 2.4819	UNS N10276	Ni: Balance, Cr: 14.5-16.5%, Mo: 15.0-17.0%, Fe: 4.0-7.0%, W: 3.0-4.0%, C: 0.01% max, Mn: 1.0% max, Si: 0.08% max	Nickel-chromium-molybdenum-tungsten alloy with excellent resistance to corrosion in a wide range of environments. Used in chemical processing, aerospace, and marine applications.
Hastelloy B-3	EN 2.4600	UNS N10665	Ni: Balance, Cr: 0.0%, Mo: 28.0-30.0%, Fe: 2.5% max, C: 0.01% max, Mn: 1.0% max, Si: 0.08% max	Nickel-molybdenum alloy with exceptional resistance to hydrochloric acid and other reducing acids. Suitable for chemical processing and high-corrosion environments.
Hastelloy C-22	EN 2.4602	UNS N06022	Ni: Balance, Cr: 20.0-22.0%, Mo: 12.0-15.0%, W: 2.0-3.0%, C: 0.01% max, Mn: 1.0% max, Si: 0.08% max	Nickel-chromium-molybdenum alloy with excellent resistance to oxidation, corrosion, and pitting. Used in chemical processing, pollution control, and marine environments.
Hastelloy C-2000	EN 2.4665	UNS N06200	Ni: Balance, Cr: 20.0-23.0%, Mo: 1.0-1.5%, Cu: 0.5-1.5%, Fe: 2.5% max, C: 0.01% max, Mn: 1.0% max	Nickel-chromium-molybdenum-copper alloy with excellent resistance to oxidation, corrosion, and high-temperature environments. Suitable for chemical processing and industrial applications.
Hastelloy B-2	EN 2.4617	UNS N10665	Ni: Balance, Cr: 0.0%, Mo: 28.0-30.0%, Fe: 2.5% max, C: 0.01% max, Mn: 1.0% max, Si: 0.08% max	Nickel-molybdenum alloy with enhanced resistance to hydrochloric acid and other corrosive environments. Used in chemical processing and marine applications.

Filtration and Sieving: Super duplex wire mesh is used for filtration and sieving applications in industries such as chemical processing, oil and gas, and desalination, where corrosion resistance and durability are critical.
EMI Shielding: Super duplex wire mesh with specific mesh sizes and configurations is employed for electromagnetic interference (EMI) shielding in electronic devices and communication systems.
Marine Applications: Super duplex wire mesh is utilized in marine environments for seawater filtration, boat fittings, and corrosion-resistant components due to its resistance to marine corrosion and biofouling.

Specification	EN Standard	Grade	Chemical Composition	Description
Super Duplex S32750	EN 1.4410	UNS S32750	Ni: 8.0-10.0%, Cr: 24.0-26.0%, Mo: 3.0-5.0%, Fe: Balance, C: 0.03% max, Mn: 1.0% max, Si: 1.0% max	Super duplex stainless steel with excellent corrosion resistance and high strength. Used in oil & gas, chemical processing, and marine environments.
Super Duplex S32760	EN 1.4501	UNS S32760	Ni: 8.0-9.0%, Cr: 24.0-26.0%, Mo: 3.0-4.0%, Fe: Balance, C: 0.03% max, Mn: 1.0% max, Si: 1.0% max	High-strength super duplex stainless steel with superior resistance to corrosion and stress corrosion cracking. Suitable for harsh environments like offshore and chemical processing.
Super Duplex S32550	EN 1.4507	UNS S32550	Ni: 8.0-9.5%, Cr: 24.0-26.0%, Mo: 3.0-5.0%, Fe: Balance, C: 0.03% max, Mn: 1.0% max, Si: 1.0% max	Duplex stainless steel with high tensile strength and excellent corrosion resistance. Used in chemical and petrochemical industries, as well as marine applications.

Along with this, we understand the operational conditions of the client company. We at STEEL AIDS (INDIA), our expert designs and develops products to obtain customer satisfaction. Stainless steel wire is the product available in varied sizes and shapes to match customer needs. Stainless Steel Wire Mesh, SS Lashing Wire, SS Welding Wire Exporter, SS Bright Wire, Stainless Steel Spring Wires, Stainless Steel Filler Wire, Stainless Steel Cold Heading Wires, Stainless Steel Tig Wires, Stainless Steel Wire Bobbin Dealer, Stainless Steel Wires Stockist in India.

Specification	EN Standard	Grade	Chemical Composition	Description
Stainless Steel 304	EN 1.4301	UNS S30400	Ni: 8.0-10.5%, Cr: 18.0-20.0%, Fe: Balance, C: 0.08% max, Mn: 2.0% max, Si: 1.0% max	Austenitic stainless steel with good corrosion resistance and excellent formability. Used in kitchen equipment, food processing, and architectural applications.
Stainless Steel 316	EN 1.4401	UNS S31600	Ni: 10.0-14.0%, Cr: 16.0-18.0%, Mo: 2.0-3.0%, Fe: Balance, C: 0.08% max, Mn: 2.0% max, Si: 1.0% max	Austenitic stainless steel with superior corrosion resistance, especially to chlorides. Ideal for marine environments, chemical processing, and medical devices.
Stainless Steel 321	EN 1.4541	UNS S32100	Ni: 9.0-12.0%, Cr: 17.0-19.0%, Ti: 5xC min, Fe: Balance, C: 0.08% max, Mn: 2.0% max, Si: 1.0% max	Austenitic stainless steel with added titanium for improved resistance to high-temperature oxidation. Used in aircraft, automotive exhaust systems, and chemical processing.
Stainless Steel 410	EN 1.4006	UNS S41000	Ni: 0.75% max, Cr: 11.5-13.5%, Fe: Balance, C: 0.15% max, Mn: 1.0% max, Si: 1.0% max	Martensitic stainless steel with moderate corrosion resistance and good hardness. Suitable for cutlery, valves, and pumps.
Stainless Steel 430	EN 1.4016	UNS S43000	Ni: 0.75% max, Cr: 16.0-18.0%, Fe: Balance, C: 0.12% max, Mn: 1.0% max, Si: 1.0% max	Ferritic stainless steel with good corrosion resistance and formability. Used in automotive trim, kitchen appliances, and decorative applications.
Stainless Steel 904L	EN 1.4539	UNS N08904	Ni: 23.0-28.0%, Cr: 19.0-23.0%, Mo: 4.0-5.0%, Cu: 1.0-2.0%, Fe: Balance, C: 0.02% max, Mn: 1.0% max	Austenitic stainless steel with very high corrosion resistance, particularly in sulfuric acid environments. Used in chemical processing and high-end applications.
Stainless Steel 303	EN 1.4305	UNS S30300	Ni: 8-10%, Cr: 17-19%, Fe: Balance, C: 0.15% max, Mn: 2% max, Si: 1% max, P: 0.20% max, S: 0.15% min	Enhanced machinability due to higher sulfur content. Used in parts requiring extensive machining.
Stainless Steel 304H	EN 1.4948	UNS S30409	Ni: 8-10.5%, Cr: 18-20%, Fe: Balance, C: 0.04-0.10%, Mn: 2% max, Si: 1% max, P: 0.045% max, S: 0.03% max	Higher carbon content for improved high-temperature strength. Used in high-temperature applications.
Stainless Steel 316L	EN 1.4404	UNS S31603	Ni: 10-14%, Cr: 16-18%, Mo: 2-3%, Fe: Balance, C: 0.03% max, Mn: 2% max, Si: 1% max, P: 0.045% max, S: 0.03% max	Similar to 316 but with lower carbon content for improved weldability. Used in marine, chemical, and medical applications.
Stainless Steel 316H	EN 1.4919	UNS S31609	Ni: 10-14%, Cr: 16-18%, Mo: 2-3%, Fe: Balance, C: 0.04-0.10%, Mn: 2% max, Si: 1% max, P: 0.045% max, S: 0.03% max	Higher carbon content for improved high-temperature strength. Used in high-temperature applications.
Stainless Steel 316LN	EN 1.4429	UNS S31653	Ni: 10-14%, Cr: 16-18%, Mo: 2-3%, N: 0.10-0.16%, Fe: Balance, C: 0.03% max, Mn: 2% max, Si: 1% max, P: 0.045% max, S: 0.03% max	Nitrogen-enhanced version of 316L for higher strength. Used in chemical and nuclear applications.
Stainless Steel 316Ti	EN 1.4571	UNS S31635	Ni: 10-14%, Cr: 16-18%, Mo: 2-3%, Ti: 0.5%, Fe: Balance, C: 0.08% max, Mn: 2% max, Si: 1% max, P: 0.045% max, S: 0.03% max	Titanium stabilized for improved resistance to intergranular corrosion. Used in high-temperature applications.
Stainless Steel 317L	EN 1.4438	UNS S31703	Ni: 11-15%, Cr: 18-20%, Mo: 3-4%, Fe: Balance, C: 0.03% max, Mn: 2% max, Si: 1% max, P: 0.045% max, S: 0.03% max	Higher molybdenum content for improved corrosion resistance. Used in chemical processing and paper mill equipment.
Stainless Steel 321H	EN 1.4878	UNS S32109	Ni: 9-12%, Cr: 17-19%, Ti: 5xC min, Fe: Balance, C: 0.04-0.10%, Mn: 2% max, Si: 1% max, P: 0.045% max, S: 0.03% max	Similar to 321 but with higher carbon content for improved high-temperature strength.
Stainless Steel 347H	EN 1.4961	UNS S34709	Ni: 9-13%, Cr: 17-20%, Nb: 10xC min, Fe: Balance, C: 0.04-0.10%, Mn: 2% max, Si: 1% max, P: 0.045% max, S: 0.03% max	Similar to 347 but with higher carbon content for improved high-temperature strength.
Stainless Steel 17-4PH	EN 1.4542	UNS S17400	Ni: 3-5%, Cr: 15-17.5%, Cu: 3-5%, Fe: Balance, C: 0.07% max, Mn: 1% max, Si: 1% max, P: 0.04% max, S: 0.03% max	Precipitation-hardening grade with high strength and corrosion resistance. Used in aerospace, chemical, and petrochemical applications.
Stainless Steel 410	EN 1.4006	UNS S41000	Ni: 0.75% max, Cr: 11.5-13.5%, Fe: Balance, C: 0.15% max, Mn: 1% max, Si: 1% max	Martensitic stainless steel with moderate corrosion resistance and good hardness. Suitable for cutlery, valves, and pumps.
Stainless Steel 431	EN 1.4057	UNS S43100	Ni: 1.25-2.50%, Cr: 15.0-17.0%, Fe: Balance, C: 0.20% max, Mn: 1.0% max, Si: 1.0% max	Martensitic stainless steel with high strength and good corrosion resistance. Used in aircraft components and pump shafts.
Stainless Steel Nitronic 50	EN 1.3964

Affordability: Carbon steel wires are cost-effective compared to other materials, making them a preferred choice in applications where cost is a significant consideration. Versatility: Carbon steel wires are versatile and can be easily formed, welded, and machined into different shapes and sizes for specific applications. Corrosion Resistance: Carbon steel wires have limited resistance to corrosion compared to stainless steel or other corrosion-resistant alloys. However, they can be galvanized or coated for improved corrosion resistance in certain environments.

Specification	EN Standard	Grade	Chemical Composition	Description
Carbon Steel 1018	EN 1.0335	UNS G10180	Ni: 0.0%, Cr: 0.0%, Mn: 0.60-0.90%, Fe: Balance, C: 0.15-0.20%, Si: 0.10-0.35%	Low-carbon steel with good machinability and weldability. Commonly used in automotive parts and machinery.
Carbon Steel 1045	EN 1.1191	UNS G10450	Ni: 0.0%, Cr: 0.0%, Mn: 0.60-0.90%, Fe: Balance, C: 0.43-0.50%, Si: 0.15-0.35%	Medium-carbon steel with higher strength and hardness compared to lower grades. Suitable for shafts, gears, and high-stress components.
Carbon Steel 1060	EN 1.1210	UNS G10600	Ni: 0.0%, Cr: 0.0%, Mn: 0.60-0.90%, Fe: Balance, C: 0.58-0.65%, Si: 0.15-0.35%	High-carbon steel with good hardness and wear resistance. Often used in tools, springs, and high-strength wires.
Carbon Steel 1080	EN 1.1274	UNS G10800	Ni: 0.0%, Cr: 0.0%, Mn: 0.60-0.90%, Fe: Balance, C: 0.75-0.85%, Si: 0.15-0.35%	High-carbon steel with increased hardness and strength. Used for making blades, cutting tools, and high-strength springs.
Carbon Steel 1095	EN 1.1276	UNS G10950	Ni: 0.0%, Cr: 0.0%, Mn: 0.60-0.90%, Fe: Balance, C: 0.90-1.03%, Si: 0.15-0.35%	Very high-carbon steel with excellent hardness and edge retention. Commonly used in knives, springs, and high-strength wire.

Excellent Electrical Conductivity: Aluminum wires exhibit excellent electrical conductivity, making them ideal for electrical wiring and transmission applications, including power distribution and transmission lines.
Corrosion Resistance: Aluminum wires offer good resistance to corrosion, especially in atmospheric conditions, due to the formation of a protective oxide layer on the surface.
Ductility and Formability: Aluminum wires are highly ductile and can be easily formed into different shapes and sizes, allowing for versatility in manufacturing processes.

Specification	EN Standard	Grade	Chemical Composition	Description
Aluminum 1050	EN 1.0150	UNS A91050	Ni: 0.0%, Cr: 0.05-0.20%, Fe: 0.0-0.4%, Cu: 0.0-0.05%, Mn: 0.0-0.05%, Si: 0.0-0.25%, Zn: 0.0-0.1%, Al: Balance	High-purity aluminum with excellent corrosion resistance and high thermal and electrical conductivity. Used in electrical applications and chemical processing.
Aluminum 2024	EN 3.1355	UNS A92024	Ni: 0.0-0.10%, Cr: 0.10-0.30%, Fe: 0.5% max, Cu: 3.8-4.9%, Mn: 0.3-0.9%, Si: 0.5% max, Zn: 0.25% max, Al: Balance	High-strength aluminum alloy with good fatigue resistance. Commonly used in aerospace applications and structural components.
Aluminum 6061	EN 3.3214	UNS A96061	Ni: 0.0-0.1%, Cr: 0.28-0.4%, Fe: 0.7% max, Cu: 0.15-0.4%, Mn: 0.15% max, Si: 0.4-0.8%, Zn: 0.25% max, Al: Balance	Versatile aluminum alloy with good mechanical properties and corrosion resistance. Widely used in structural applications, automotive, and aerospace industries.
Aluminum 7075	EN 3.4365	UNS A97075	Ni: 0.0-0.3%, Cr: 0.18-0.28%, Fe: 0.5% max, Cu: 4.2-4.7%, Mn: 0.3% max, Si: 0.4% max, Zn: 5.1-6.1%, Al: Balance	High-strength aluminum alloy with excellent fatigue resistance. Used in aerospace, marine, and military applications.
Aluminum 3003	EN 3.0517	UNS A93003	Ni: 0.0%, Cr: 0.05-0.20%, Fe: 0.7-0.9%, Cu: 0.1-0.3%, Mn: 1.0-1.5%, Si: 0.6% max, Zn: 0.1% max, Al: Balance	Good corrosion resistance and formability. Commonly used in manufacturing cookware, chemical equipment, and automotive components.

High-Temperature Strength: Nimonic wires exhibit exceptional strength and creep resistance at elevated temperatures, making them suitable for use in high-temperature environments such as gas turbine engines and aerospace applications.
Corrosion and Oxidation Resistance: Nimonic alloys offer excellent resistance to corrosion and oxidation at high temperatures, providing long-term durability in aggressive environments.
Creep Resistance: Nimonic wires have excellent creep resistance, allowing them to maintain their mechanical properties under constant load at high temperatures over prolonged periods.
Weldability and Fabrication: Nimonic alloys can be readily welded and fabricated using conventional techniques, allowing for easy manufacturing and assembly of complex components.

Specification	EN Standard	Grade	Chemical Composition	Description
Nimonic 75	EN 2.4665	UNS N06075	Ni: 53.0-60.0%, Cr: 20.0-23.0%, Co: 9.0-12.0%, Ti: 2.0-3.0%, Fe: Balance, C: 0.15% max, Mo: 0.5% max	Nickel-chromium-cobalt alloy with excellent high-temperature strength and oxidation resistance. Used in gas turbine blades and exhaust systems.
Nimonic 80A	EN 2.4951	UNS N07080	Ni: 57.0-63.0%, Cr: 19.0-21.0%, Co: 8.0-10.0%, Ti: 2.5-3.0%, Fe: Balance, C: 0.15% max, Mo: 0.5% max	High-strength nickel-chromium-cobalt alloy with good oxidation resistance. Commonly used in turbine blades and high-temperature applications.
Nimonic 90	EN 2.4631	UNS N07090	Ni: 54.0-58.0%, Cr: 20.0-22.0%, Co: 8.0-10.0%, Ti: 2.0-2.5%, Fe: Balance, C: 0.15% max, Mo: 0.5% max	Nickel-chromium-cobalt alloy with high-temperature strength and resistance to oxidation. Ideal for applications in aerospace and gas turbines.
Nimonic 263	EN 2.4668	UNS N07263	Ni: 52.0-58.0%, Cr: 19.0-21.0%, Co: 8.0-10.0%, Ti: 2.0-2.5%, Fe: Balance, C: 0.15% max, Mo: 2.0-3.0%	Nickel-chromium-cobalt alloy with high creep resistance and oxidation resistance. Used in aerospace and high-temperature industrial applications.
Nimonic 75A	EN 2.4660	UNS N06075A	Ni: 55.0-60.0%, Cr: 20.0-23.0%, Co: 8.0-12.0%, Ti: 2.0-3.0%, Fe: Balance, C: 0.10% max, Mo: 0.5% max	Improved version of Nimonic 75 with better thermal stability and oxidation resistance. Suitable for advanced gas turbines and high-temperature components.

Electrical Conductivity: Copper wires exhibit excellent electrical conductivity, making them ideal for electrical wiring and transmission applications, where low electrical resistance and efficient energy transfer are essential.
Thermal Conductivity: Copper has high thermal conductivity, allowing for efficient heat transfer in electrical and electronic devices, heat exchangers, and other thermal management applications.
Corrosion Resistance: Copper is resistant to corrosion in most environments, particularly in atmospheric conditions, due to the formation of a protective oxide layer on its surface.
Malleability and Ductility: Copper is highly malleable and ductile, allowing it to be easily formed into wires of various shapes and sizes without losing its electrical conductivity or mechanical properties.

Specification	EN Standard	Grade	Chemical Composition	Description
Copper C11000	EN 2.0090	UNS C11000	Ni: 0.0%, Cr: 0.0%, Fe: 0.03% max, C: 0.02% max, O: 0.02% max, Cu: Balance	High-purity copper with excellent electrical and thermal conductivity. Commonly used in electrical wiring and electronics.
Copper C10200	EN 2.0060	UNS C10200	Ni: 0.0%, Cr: 0.0%, Fe: 0.03% max, C: 0.02% max, O: 0.02% max, Cu: Balance	Oxygen-free copper with high conductivity and resistance to embrittlement. Used in electronic and high-purity applications.
Copper C14500	EN 2.0090	UNS C14500	Ni: 0.0%, Cr: 0.0%, Fe: 0.02% max, C: 0.02% max, O: 0.02% max, Cu: Balance	Alloyed with phosphorus for increased strength and electrical conductivity. Suitable for electrical contacts and connectors.
Copper C17500	EN 2.0980	UNS C17500	Ni: 0.0%, Cr: 0.0%, Fe: 0.05% max, C: 0.05% max, O: 0.02% max, Cu: Balance	Copper alloy with added beryllium for improved strength and hardness. Commonly used in high-performance electrical and mechanical applications.
Copper C70600	EN 2.0960	UNS C70600	Ni: 9.0-11.0%, Cr: 0.0%, Fe: 0.5% max, C: 0.2% max, O: 0.05% max, Cu: Balance	Copper-nickel alloy with good corrosion resistance and strength. Used in marine applications and chemical processing.

Corrosion Resistance: Brass wires exhibit excellent corrosion resistance, particularly in marine and atmospheric environments, due to the protective oxide layer formed on their surface.
Electrical Conductivity: Brass has good electrical conductivity, making brass wires suitable for electrical wiring, connectors, and terminals in various electronic devices and appliances.
Machinability: Brass is highly machinable, allowing for easy cutting, shaping, and forming of brass wires into intricate components and parts with tight tolerances.
Aesthetic Appeal: Brass wires are valued for their golden-yellow color, luster, and decorative appearance, making them popular choices for jewelry, ornamental accents, and architectural elements.

Specification	EN Standard	Grade	Chemical Composition	Description
Brass C27000	EN 2.0401	UNS C27000	Ni: 0.0%, Cr: 0.0%, Fe: 0.15% max, C: 0.30% max, Zn: 90.7-92.7%, Cu: Balance	A common brass alloy with good machinability and moderate strength. Used in fittings, fasteners, and decorative items.
Brass C26000	EN 2.0402	UNS C26000	Ni: 0.0%, Cr: 0.0%, Fe: 0.15% max, C: 0.30% max, Zn: 70.0-72.0%, Cu: Balance	Cartridge brass with excellent formability and good corrosion resistance. Commonly used in electrical connectors and plumbing fittings.
Brass C36000	EN 2.0404	UNS C36000	Ni: 0.0%, Cr: 0.0%, Fe: 0.35% max, C: 0.35% max, Zn: 61.0-63.0%, Cu: Balance	Free-cutting brass with superior machinability. Widely used in high-precision machining applications and components.
Brass C46400	EN 2.0380	UNS C46400	Ni: 0.0%, Cr: 0.0%, Fe: 0.3% max, C: 0.1% max, Zn: 60.0-62.0%, Cu: Balance	Leaded brass with high strength and good machinability. Used in marine hardware, automotive parts, and plumbing fixtures.
Brass C87800	EN 2.0350	UNS C87800	Ni: 0.0%, Cr: 0.0%, Fe: 0.3% max, C: 0.2% max, Zn: 66.0-68.0%, Cu: Balance	High-zinc brass with good corrosion resistance and strength. Often used in electrical connectors, instruments, and plumbing components.