We are offering Aluminium Square Bars to our clients. We specialize in offering a wide range of Square aluminium bars, which is known for its optimum quality. These bars are fabricated using high grade aluminium and latest machinery. Our aluminium bars are widely known for their corrosion resistance, tensile strength and durability. Further, these are available as per the clients' specifications and requirements.
A 6063 Aluminum Rod refers to a solid, cylindrical piece of material made from 6063 aluminum alloy. This alloy is widely known for its good strength, excellent corrosion resistance, and versatility in a variety of applications, especially in architectural and structural environments.
Key Characteristics of 6063 Aluminium Round Rods:
Composition: Typically contains 0.2-0.6% silicon, 0.45-0.9% magnesium, and small amounts of iron, copper, manganese, and other trace elements, with the remainder being aluminium.
Strength: Medium strength with a minimum tensile strength around 27 ksi (186 MPa) and yield strength of 21 ksi (145 MPa) in the T6 temper.
Corrosion Resistance: Excellent, thanks to the natural oxide layer that forms on aluminium, making it suitable for outdoor and marine applications.
Surface Finish: Known for a smooth, high-quality finish, especially after anodizing, which enhances both appearance and durability.
Workability: Highly extrudable and formable, with good weldability (though strength may decrease in the weld zone) and moderate machinability.
Tempers: Commonly available in T6 (solution heat-treated and artificially aged) for maximum strength, or T5 and T52 for specific applications requiring different balances of strength and formability.
Applications:
Architectural: Window frames, door frames, railings, and trusses due to its aesthetic appeal and weather resistance.
Industrial: Heat sinks, irrigation tubing, and custom extrusions for machinery.
Electrical: Used in conductive applications like busbar tubes, leveraging its good thermal and electrical conductivity (55-63% IACS).
Furniture and Decor: Often chosen for its ability to be shaped and finished attractively.
Aluminum 6061 round bar is typically used for aerospace, marine, electronic, ornamental, machinery, and structural applications. Highly versatile, 6061 aluminum rod has a good strength-to-weight ratio, above-average corrosion resistance, good machinability, and is excellent for welding. Aluminum 6061 round bar stock is available in a variety of dimensions, including full-size and custom-cut lengths.
key characteristics of 6061 aluminium round rods:
Composition:
Primary alloying elements are magnesium (0.8-1.2%) and silicon (0.4-0.8%), with smaller amounts of iron, copper, chromium, and other elements. This combination enhances strength and corrosion resistance.
Strength:
Offers a good balance of strength and ductility. In the T6 or T651 temper (heat-treated and artificially aged), it typically has a tensile strength of ~310 MPa (45 ksi) and a yield strength of ~270 MPa (39 ksi).
Corrosion Resistance:
Exhibits excellent resistance to corrosion, particularly in atmospheric conditions. It can withstand exposure to moisture and many chemicals, though anodizing or protective coatings can further enhance this property.
Machinability:
Highly machinable, allowing for easy cutting, drilling, milling, and turning. It produces a smooth finish and is favored in precision manufacturing.
Weldability:
Readily weldable using common methods like MIG and TIG welding. However, heat-affected zones may experience reduced strength, which can be mitigated with proper techniques or post-weld treatment.
Formability:
Good formability, especially in the annealed (O-temper) state, allowing it to be bent or shaped. In T6 temper, formability is reduced due to higher strength.
Heat Treatability:
Responds well to heat treatment, achieving improved mechanical properties in tempers like T6 or T651, which involve solution heat treatment followed by aging.
Surface Finish:
Can be easily anodized or coated to improve aesthetics and durability, offering a smooth, attractive finish for both functional and decorative purposes.
Versatility:
Suitable for a wide range of applications, including structural components, aerospace fittings, marine hardware, automotive parts, and general-purpose engineering due to its balanced properties.
Aluminum 6082 round bar is typically used for aerospace, marine, electronic, ornamental, machinery, and structural applications. Highly versatile, 6082 aluminum rod has a good strength-to-weight ratio, above-average corrosion resistance, good machinability, and is excellent for welding. Aluminum 6061 round bar stock is available in a variety of dimensions, including full-size and custom-cut lengths.
Key Characteristics:
Composition: Magnesium (0.8-1.2%) and silicon (0.4-0.8%) as primary alloying elements, enhancing strength and corrosion resistance.
Strength: High strength-to-weight ratio; tensile strength ~310 MPa and yield strength ~270 MPa in T6/T651 temper.
Corrosion Resistance: Excellent resistance to atmospheric and chemical corrosion, further improved by anodizing.
Machinability: Highly machinable, allowing precise cutting, drilling, and finishing.
Weldability: Easily weldable using MIG/TIG methods, with good joint integrity.
Formability: Good in annealed state; moderate in T6 temper due to increased hardness.
Lightweight: Density of ~2.7 g/cm³, ideal for weight-sensitive applications.
Heat Treatability: Responds well to heat treatment, achieving enhanced properties in T6/T651 tempers.
Surface Finish: Smooth and suitable for anodizing or coating for aesthetics and durability.
Versatility: Balanced properties make it adaptable for diverse uses.
Applications:
Aerospace: Aircraft structures (wings, fuselages, landing gear) for lightweight strength.
Automotive: Chassis, suspension parts, and wheels to reduce vehicle weight.
Marine: Boat fittings and masts due to corrosion resistance in saltwater.
Construction: Frameworks, trusses, and supports for durable, weather-resistant structures.
Machinery: Shafts, rollers, and hydraulic components for precision and wear resistance.
Electronics: Heat sinks and enclosures, leveraging thermal conductivity and finish options.
Sporting Goods: Bicycle frames and golf shafts for performance and durability.
Piping/Fittings: Pipes and valves in corrosion-resistant systems.
Furniture: Modern designs, railings, and fixtures with decorative finishes.
General Fabrication: Custom projects, prototypes, and jigs due to ease of use.
6061 aluminium round rods are a go-to material across industries, offering a reliable mix of performance and practicality for both structural and specialized applications.
Aluminum Round Bar/Rod 2014 is normally used for aerospace, automotive, machine, and industrial applications. 2014 aluminum is one of the strongest aluminum alloys, though with slightly less corrosion resistance. 2014 round bar/rod stock is available in full size and custom cut lengths.
Key Characteristics:
Composition: Primarily aluminum with copper (3.9-5.0%) as the main alloying element, along with smaller amounts of magnesium, silicon, and manganese, contributing to high strength.
Strength: Excellent strength, with tensile strength around 415-485 MPa and yield strength around 370-415 MPa in T6 temper, making it one of the stronger aluminum alloys.
Corrosion Resistance: Relatively poor corrosion resistance due to high copper content, often requiring protective coatings or anodizing for use in harsh environments.
Machinability: Good machinability, though not as exceptional as 2011; suitable for precision work with proper tooling.
Weldability: Poor weldability due to copper content, prone to cracking during welding; joining is typically avoided or requires specialized techniques.
Formability: Moderate formability in annealed state; limited in heat-treated tempers (e.g., T6) due to increased hardness and strength.
Lightweight: Density of ~2.8 g/cm³, slightly higher than pure aluminum but still offering a high strength-to-weight ratio.
Heat Treatability: Highly responsive to heat treatment (e.g., T4, T6 tempers), achieving peak strength and durability after solution treatment and aging.
Fatigue Resistance: Good fatigue strength, making it suitable for cyclic loading applications.
Versatility: Balances strength and workability for demanding structural uses, though its corrosion limitations restrict environmental exposure.
Applications:
Aerospace: Widely used in aircraft structures, including wing spars, fuselage frames, and landing gear components, due to its high strength and fatigue resistance.
Automotive: Employed in high-performance parts like suspension components, engine mounts, and truck frames where strength outweighs corrosion concerns.
Military: Found in defense equipment such as missile components parts requiring robust mechanical properties.
Heavy Machinery: Used in structural parts of industrial equipment, cranes, and hydraulic systems where durability under stress is critical.
Forgings: Common in forged components like connecting rods and brackets, leveraging its strength and heat-treatable nature.
Sporting Equipment: Applied in high-stress items like bicycle frames or climbing gear where lightweight strength is essential.
Engineering Prototypes: Utilized in custom or experimental designs needing strong, workable material for testing.
Aluminum Round Bar/Rod 7075 is normally used for aerospace, military, and automotive applications. 7075 aluminum is the strongest aluminum, with the strength of many steels, while retaining aluminum's lightweight qualities and corrosion resistance. 7075 round bar/rod stock on request.
Key Characteristics:
Composition: Primarily aluminum with zinc (5.1-6.1%) as the main alloying element, plus magnesium, copper, and trace amounts of chromium, providing exceptional strength.
Strength: Extremely high strength, with tensile strength around 540-570 MPa and yield strength around 470-505 MPa in T6 temper, making it one of the strongest aluminum alloys.
Corrosion Resistance: Moderate corrosion resistance; less resistant than 6061 due to high copper content, often requiring protective coatings or anodizing for harsh environments.
Machinability: Good machinability, though harder than softer alloys like 6061; produces a quality finish with appropriate tooling.
Weldability: Poor weldability due to susceptibility to cracking from copper and zinc content; joining typically avoided or requires specialized methods.
Formability: Limited formability in heat-treated tempers (e.g., T6, T651) due to high strength; better in annealed state but rarely used that way.
Lightweight: Density of ~2.81 g/cm³, offering an outstanding strength-to-weight ratio, ideal for weight-critical applications.
Heat Treatability: Highly responsive to heat treatment (e.g., T6, T651 tempers), achieving peak strength and hardness after solution treatment and aging.
Fatigue Resistance: Excellent fatigue strength, suitable for applications under repeated stress or cyclic loading.
Toughness: High toughness and resistance to stress corrosion cracking (especially in T73 temper), enhancing durability in demanding conditions.
Applications:
Aerospace: Extensively used in aircraft structures, including wings, fuselages, and landing gear, due to its superior strength-to-weight ratio and fatigue resistance.
Military: Found in defense applications like missile parts, rifle components requiring maximum strength.
Automotive: Employed in high-performance parts such as pistons, gears, and racing car components where strength and lightweight properties are critical.
Sporting Goods: Used in high-end bicycle frames, rock climbing gear, and baseball bats for durability and performance under stress.
Tooling and Molds: Applied in injection molds and die-making due to its hardness and ability to withstand wear.
Marine: Utilized in high-strength fittings and structural components, though typically coated to mitigate corrosion in saltwater.
Engineering: Common in heavy-duty machinery parts, hydraulic systems, and structural supports needing exceptional strength.
Trading and supplying a range of aluminium products, we are offering the Aluminium Bus Bars. These bus bars are frequently used for panels, switchgear, earthing and other electrical applications. Why Hindalco Aluminium Busbars?
Manufactured from high quality billnets made from in-house virgin metel and through state-of-art Wagstaff AirSlipTM
Superior Quality with tighter Fe control, ensure guaranteed electrical conductivity.
Traceability of material right from metel stage.
Time-tested, well established manufacturing process and QA systems ensure adherence to the standards.
Comprehensive Testing Facilities.
Customer specific solution.
Right physical properties ensure smooth bending free of cracks.
High Degree of dimensional controls enables superior contacts which is important for current carrying conductors hence long life.
ELECTICAL CONDUCTIVITY OF OUR MATERIALS IS 56 - 57 % IACS
Width Available: 12.70 to 203.40 mm Thickness Available: 6.00 To 12.70 mm
6060 Aluminum Rod / Round Bar is normally used for architectural, marine, and ornamental applications. 6060 has above average corrosion resistance, good machinability, and is excellent for welding. 6060 is mechanically similar to 6063.
Key Characteristics:
Composition: Primarily aluminum with magnesium (0.35-0.6%) and silicon (0.3-0.6%) as the main alloying elements, offering a balanced, general-purpose alloy.
Strength: Moderate strength, with tensile strength around 150-215 MPa and yield strength around 110-160 MPa (depending on temper, e.g., T5 or T6), lower than 6061 or 7075.
Corrosion Resistance: Excellent corrosion resistance, particularly in atmospheric conditions, similar to or slightly better than 6061, and suitable for outdoor use without additional coatings.
Machinability: Good machinability, though not as exceptional as 2011; allows for smooth finishes and ease of processing.
Weldability: Highly weldable using common methods like MIG and TIG, with strong, reliable joints.
Formability: Excellent formability, especially in T4 or annealed states, making it ideal for extrusion and shaping into complex profiles.
Lightweight: Density of ~2.7 g/cm³, providing a good strength-to-weight ratio typical of 6000-series alloys.
Heat Treatability: Responds well to heat treatment (e.g., T5, T6 tempers), improving strength and hardness, though less dramatic than stronger alloys like 7075.
Surface Finish: Outstanding surface finish after extrusion or anodizing, often used for decorative or architectural purposes.
Versatility: A general-purpose alloy with a balance of strength, corrosion resistance, and workability, widely used in extrusion applications.
Applications:
Architectural: Commonly used in window frames, door frames, and curtain walls due to its excellent finish and corrosion resistance.
Furniture: Employed in lightweight structural components for chairs, tables, and shelving, often anodized for aesthetic appeal.
Automotive: Found in trim parts, interior fittings, and non-structural components where moderate strength and good finish are sufficient.
Construction: Used in ladders, railings, and scaffolding for its lightweight and weather-resistant properties.
Electronics: Applied in enclosures, frames, and heat sinks, leveraging its formability and surface quality.
Consumer Goods: Utilized in household items like shower enclosures, picture frames, and lighting fixtures due to its decorative potential.
General Extrusion: A go-to alloy for extruded profiles like tubes, rods, and bars in low-to-moderate stress applications.
Base Material: All are aluminum-based alloys, offering inherent lightweight properties (density ~2.7-2.81 g/cm³) and a good strength-to-weight ratio.
Heat Treatability: Each alloy responds to heat treatment (e.g., T4, T5, T6 tempers), enhancing mechanical properties like strength and hardness.
Corrosion Resistance: Varies by alloy, but all provide some level of resistance, with 6061, 6082, and 6063 excelling in atmospheric conditions, while 2014 and 7075 require coatings for harsh environments due to higher copper content.
Machinability: All are machinable, though to different degrees—2014 and 7075 are good, 6061 and 6082 are very good, and 6063 is moderate—allowing for precision fabrication.
Versatility: Each alloy supports a range of fabrication methods (e.g., extrusion, forging), though weldability and formability differ significantly.
Alloy-Specific Key Characteristics:
6061:
Strength: Moderate (~310 MPa tensile in T6).
Corrosion Resistance: Excellent.
Weldability: High.
Formability: Good.
Finish: Smooth, anodizable.
6082:
Strength: Higher than 6061 (~310-340 MPa in T6).
Corrosion Resistance: Very good.
Weldability: High.
Formability: Good.
Durability: Stronger and tougher than 6061, often a European substitute.
6063:
Strength: Moderate (~150-215 MPa in T6).
Corrosion Resistance: Excellent.
Weldability: High.
Formability: Excellent.
Finish: Superior for extrusion and anodizing.
2014:
Strength: High (~415-485 MPa in T6).
Corrosion Resistance: Poor.
Weldability: Poor.
Formability: Moderate.
Fatigue Resistance: Good.
7075:
Strength: Very high (~540-570 MPa in T6).
Corrosion Resistance: Moderate.
Weldability: Poor.
Formability: Limited.
Fatigue Resistance: Excellent.
Common Applications:
These alloys are used across industries where lightweight, durable materials are needed, with specific applications driven by their unique properties.
Aluminium square bars in grades 6063, 6082, and 6061 are valued for their unique properties, making them suitable for various applications. Below is a concise summary of their key characteristics and uses:
6063 Aluminium Square Bar
Characteristics:
Excellent extrudability and smooth surface finish.
Good corrosion resistance.
Medium strength, highly formable.
Ideal for anodizing due to aesthetic appeal.
Applications:
Architectural elements (window/door frames, trims).
Aluminum Round Bar/Rod 2011 is normally used for precision machine parts. 2011 aluminum is easy to machine, easy to finish, non-magnetic, and heat treatable. 2011 round bar/rod stock is on request.
Key Characteristics:
Composition: Primarily aluminum with copper (5.0-6.0%) as the main alloying element, plus small amounts of lead and bismuth to enhance machinability.
Machinability: Exceptional machinability, often called a "Free Machining Alloy" (FMA), ideal for high-speed machining with fine, easily removable chips.
Strength: High mechanical strength, with tensile strength around 370 MPa and yield strength around 300 MPa in T6 temper.
Corrosion Resistance: Poor corrosion resistance compared to other aluminum alloys, often requiring anodizing or coating for protection.
Weldability: Poor weldability due to high copper content, making it unsuitable for welding applications.
Formability: Limited formability in heat-treated tempers (e.g., T3, T6); better in annealed state but rarely used that way.
Lightweight: Density of ~2.78 g/cm³, offering a good strength-to-weight ratio typical of aluminum alloys.
Heat Treatability: Responds well to heat treatment (e.g., T3, T6 tempers), achieving enhanced strength and hardness.
Surface Finish: Excellent surface finish after machining, suitable for precision parts with detailed designs.
Versatility: Tailored for repetitive machining tasks, capable of replacing free-machining brass in some cases without tooling changes.
Applications:
Precision Machining: Used for complex, detailed parts like screws, bolts, fittings, and connectors due to superior machinability.
Aerospace: Employed in aircraft components such as fasteners and small precision gears where high strength and machinability are key.
Automotive: Found in fuel system components, adapters, and trim parts requiring intricate machining.
Electronics: Utilized in connectors, knobs, and clock parts where precise tolerances and good finish are needed.
General Manufacturing: Common in appliance parts, hose fittings, and machine components produced on automatic lathes.
Ordnance: Applied in military hardware like fasteners and fittings requiring high strength and rapid production.
Consumer Goods: Used in camera parts, pen components, and other small, detailed items benefiting from its machining ease.
