

Russian Metals supplies premium quality 6082, HE30, H30 and AD35 aluminium alloys for structural, marine, aerospace, automotive, construction and industrial applications. These aluminium engineering alloys are known for strength, corrosion resistance, machinability, weldability and lightweight performance.
This page provides detailed product information for each grade separately, including 6082 aluminium alloy, HE30 aluminium alloy, H30 aluminium alloy and AD35 aluminium alloy. Each product section includes chemical composition, mechanical properties, physical properties, available forms, applications and supply details.
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Russian Metals supplies premium quality 6082, HE30, H30 and AD35 aluminium alloys for structural, marine, aerospace, automotive, construction and industrial applications. These aluminium engineering alloys are known for strength, corrosion resistance, machinability, weldability and lightweight performance.
This page provides detailed product information for each grade separately, including 6082 aluminium alloy, HE30 aluminium alloy, H30 aluminium alloy and AD35 aluminium alloy. Each product section includes chemical composition, mechanical properties, physical properties, available forms, applications and supply details.
Russian Metals supplies aluminium plates, sheets, bars, rods, round bars, flat bars, blocks, extrusions, profiles, pipes, tubes and custom-cut sizes as per project requirement.
6082, HE30, H30 and AD35 are important aluminium alloy grades used in engineering, fabrication and structural industries. These grades are widely selected where lightweight metal, good mechanical strength, corrosion resistance and machining performance are required.
| Primary Keyword | Russian Product Name | Common Product Description | Common Supply Forms |
|---|---|---|---|
| 6082 | Алюминиевый сплав 6082 | 6082 aluminium alloy, EN AW 6082, structural aluminium 6082 | Plates, sheets, bars, rods, blocks, extrusions |
| HE30 | Алюминиевый сплав HE30 | HE30 aluminium alloy, HE30 T6 aluminium, HE30 engineering alloy | Plates, sheets, rods, round bars, flat bars |
| H30 | Алюминиевый сплав H30 | H30 aluminium alloy, H30 engineering alloy, H30 structural aluminium | Plates, sheets, rods, bars, extrusions |
| AD35 | Алюминиевый сплав AD35 / Сплав АД35 | AD35 aluminium alloy, AD35 aluminium profile, AD35 structural alloy | Extrusions, profiles, bars, rods, sheets, plates |
6082 aluminium alloy is a medium-to-high strength aluminium grade from the 6000 series. It is also known as EN AW 6082, alloy 6082, aluminium grade 6082, aluminum grade 6082 and structural aluminium 6082.
Russian Metals supplies 6082 aluminium alloy in plates, sheets, bars, rods, round bars, flat bars, blocks and extrusions. This grade is suitable for structural fabrication, marine parts, aerospace components, automotive engineering, construction frameworks and industrial machining.
6082 aluminium alloy is a strong choice for applications where corrosion resistance, good machinability and dependable mechanical performance are required.
6082 aluminium alloy is commonly used in T6 and T651 tempers. 6082 T6 aluminium is preferred for high-strength applications, while 6082 T651 aluminium is widely used in plates and flat bars where stress-relieved material is required for precision machining.
6082 aluminium alloy is an aluminium-magnesium-silicon-manganese alloy. The addition of manganese helps improve strength and grain structure. It is commonly used as a structural alloy in demanding environments.
Common search and supply terms include:
6082 aluminium alloy became popular as a strong structural grade because it offers better strength than many other 6000-series aluminium alloys. It is widely used in Europe and international markets for structural plates, machined components, bridges, cranes, trusses, transport structures and marine equipment.
6082 aluminium alloy gives a strong balance of weight saving, durability and fabrication performance. It is lighter than steel and provides good corrosion resistance in outdoor, industrial and marine environments.
Russian Metals supplies 6082 aluminium plate, 6082 aluminium sheet, 6082 aluminium bar, 6082 aluminium rod, 6082 aluminium round bar, 6082 aluminium flat bar, 6082 aluminium block and 6082 aluminium extrusion for engineering projects.
6082 aluminium alloy chemical composition includes aluminium as the base metal with controlled silicon, magnesium and manganese additions.
| Element | Typical Range |
|---|---|
| Aluminium | Balance |
| Silicon | 0.70–1.30% |
| Magnesium | 0.60–1.20% |
| Manganese | 0.40–1.00% |
| Iron | Max 0.50% |
| Copper | Max 0.10% |
| Zinc | Max 0.20% |
| Chromium | Max 0.25% |
| Titanium | Max 0.10% |
| Other Elements | As per standard |
6082 aluminium mechanical properties depend on temper, product form, thickness and heat treatment. 6082 T6 aluminium and 6082 T651 aluminium are commonly used for higher strength and machining stability.
| Property | 6082 T6 / T651 Typical Value |
|---|---|
| Tensile Strength | 295–340 MPa |
| Yield Strength / Proof Stress | 240–310 MPa |
| Elongation | 8–11% |
| Brinell Hardness | Approx. 89–95 HB |
| Modulus of Elasticity | Approx. 70 GPa |
| Shear Strength | Approx. 200–220 MPa |
| Fatigue Strength | Approx. 90–100 MPa |
| Property | Typical Value |
|---|---|
| Density | 2.70 g/cm³ |
| Melting Range | Approx. 555–650°C |
| Thermal Conductivity | Approx. 170–180 W/m·K |
| Electrical Resistivity | Approx. 0.038 µΩ·m |
| Coefficient of Thermal Expansion | Approx. 24 x 10⁻⁶ /K |
| Modulus of Elasticity | Approx. 70 GPa |
6082 aluminium alloy provides good thermal conductivity for engineering and industrial components. It is useful where heat transfer, weight saving and strength are required together.
6082 aluminium alloy offers moderate electrical conductivity. It is not mainly selected as an electrical conductor grade, but it can be used where mechanical strength and conductivity are both useful.
6082 alloy density is approximately 2.70 g/cm³. This low density makes it useful in aerospace, transport, automotive and structural applications where weight reduction is important.
6082 T6 aluminium and 6082 T651 aluminium provide good hardness compared with softer aluminium tempers. The hardness makes the alloy suitable for machined parts, blocks, bars and structural plates.
6082 aluminium alloy has good tensile strength for structural applications. It is used in load-bearing parts, frames, platforms, machine parts and heavy fabrication components.
6082 aluminium yield strength makes it suitable for applications where the part must resist permanent deformation under load.
6082 aluminium offers moderate elongation in T6 and T651 tempers. Softer tempers provide better formability where bending and shaping are required.
6082 aluminium corrosion resistance is excellent for outdoor, marine and industrial environments. It is often used in marine grade 6082 aluminium alloy applications, construction parts and structural frameworks.
6082 aluminium forms a natural oxide layer that improves surface protection. This helps the alloy resist oxidation in normal atmospheric conditions.
6082 aluminium alloy offers moderate wear resistance. For high-friction parts, anodizing, coating or lubrication may improve performance.
6082 aluminium alloy provides useful fatigue strength for structures exposed to repeated load. It is suitable for frames, platforms, transport parts, cranes and trusses.
6082 aluminium machinability characteristics are good in T6 and T651 tempers. It is suitable for CNC machining, milling, drilling, turning and precision cutting.
6082 aluminium welding properties are good. However, strength in the weld area may reduce, so correct filler material and welding procedure should be selected for structural applications.
6082 aluminium formability depends on temper. Softer tempers are better for bending and shaping, while T6 and T651 are stronger and better for machining.
6082 aluminium alloy can be strengthened by heat treatment. T6 and T651 tempers are commonly used where high strength and dimensional stability are required.
| Temper | Description | Common Use |
|---|---|---|
| O | Annealed soft condition | Forming and bending |
| T4 | Solution heat-treated and naturally aged | Moderate strength |
| T6 | Solution heat-treated and artificially aged | High-strength components |
| T651 | T6 with stress relief | Plates, flat bars and machining |
6082 aluminium plate is used for machined components, base plates, structural plates, fixtures, tooling and heavy-duty engineering parts.
6082 aluminium sheet is used for panels, marine covers, fabrication work, transport parts and structural sheet applications.
6082 aluminium bar is suitable for machining, shafts, supports, brackets, spacers and industrial parts.
6082 aluminium rod is used in turning, machining, fastener components and general engineering.
6082 aluminium round bar is used for CNC machining, shafts, rollers, rings, bushes and precision turned parts.
6082 aluminium flat bar is suitable for machine frames, brackets, supports, rails and structural fabrication.
6082 aluminium block is used for CNC machining, mould plates, jigs, fixtures and custom engineering components.
6082 aluminium extrusion is used for structural profiles, channels, sections, frames and engineered shapes.
| Standard / Designation | 6082 Equivalent |
|---|---|
| EN | EN AW 6082 |
| AA | AA6082 |
| DIN | 3.2315 |
| Symbolic | AlSi1MgMn |
| UNS | A96082 |
6082 alloy equivalent grades include EN AW 6082, AA6082, DIN 3.2315, AlSi1MgMn, HE30 and H30. Final equivalence should be confirmed with chemical composition and mechanical property requirements.
6082 aluminium alloy generally offers higher strength than 6061 in many structural forms. It is often selected for bridges, cranes, trusses and heavy engineering applications.
| Property | 6082 Aluminium Alloy | 6061 Aluminium Alloy |
|---|---|---|
| Strength | Higher in many structural uses | Medium strength |
| Corrosion Resistance | Excellent | Good |
| Machinability | Good | Good |
| Weldability | Good | Good |
| Common Use | Structural and heavy engineering | General engineering |
7075 aluminium has very high strength, but 6082 offers better weldability and corrosion resistance for general structural fabrication.
| Property | 6082 Aluminium Alloy | 7075 Aluminium Alloy |
|---|---|---|
| Strength | Medium to high | Very high |
| Corrosion Resistance | Better | Lower without protection |
| Weldability | Better | Limited |
| Fabrication Suitability | Good | More restricted |
6082 aluminium alloy is used for aerospace brackets, machined supports, fixtures, frames and lightweight engineering components.
Marine grade 6082 aluminium alloy is used for boat fittings, gangways, ladders, platforms, frames and coastal structures.
6082 aluminium is used in automotive frames, brackets, suspension parts, panels and lightweight machined components.
6082 aluminium is used for machine parts, jigs, fixtures, tooling, frames, CNC components and industrial support structures.
6082 structural aluminium is used for bridges, roof structures, walkways, trusses, rails, platforms and support systems.
Choose 6082 aluminium alloy when your project requires strength, corrosion resistance, machinability and structural reliability.
Russian Metals supplies 6082 aluminium plate, 6082 aluminium sheet, 6082 aluminium bar, 6082 aluminium rod, 6082 aluminium round bar, 6082 aluminium flat bar, 6082 aluminium block and 6082 aluminium extrusion in standard and custom sizes.
HE30 aluminium alloy is a widely used engineering aluminium grade supplied for structural, marine, aerospace, automotive and industrial applications. It is commonly associated with the 6082 aluminium alloy family and is often supplied in T6 condition for strength and machinability.
Russian Metals supplies HE30 aluminium alloy in plates, sheets, rods, bars, round bars, flat bars and extrusions as per customer requirements.
HE30 aluminium alloy is valued for its mechanical strength, corrosion resistance and machining performance. HE30 T6 aluminium is commonly selected for engineering parts, structural plates, CNC components and fabricated assemblies.
HE30 aluminium alloy is an aluminium engineering alloy used in applications requiring strength and durability. It is commonly requested as HE30 aluminium plate, HE30 aluminium sheet, HE30 aluminium rod, HE30 aluminium bar, HE30 round bar, HE30 flat bar and HE30 extrusion.
Common search and supply terms include:
HE30 became popular in aluminium supply markets as a commercial engineering grade reference. It is commonly used where customers require a strong aluminium alloy suitable for machining, fabrication, corrosion resistance and structural applications.
HE30 aluminium alloy provides strength, weight saving and fabrication flexibility. It is useful in engineering components where machined quality, corrosion resistance and structural reliability are required.
Russian Metals supplies HE30 aluminium alloy for customers needing HE30 aluminium plate, HE30 aluminium sheet manufacturer support, HE30 aluminium round bar supplier options and HE30 aluminium stockist in India service.
HE30 aluminium alloy chemical composition is typically aligned with the Al-Mg-Si-Mn aluminium alloy family.
| Element | Typical Range |
|---|---|
| Aluminium | Balance |
| Silicon | 0.70–1.30% |
| Magnesium | 0.60–1.20% |
| Manganese | 0.40–1.00% |
| Iron | Max 0.50% |
| Copper | Max 0.10% |
| Zinc | Max 0.20% |
| Chromium | Max 0.25% |
| Titanium | Max 0.10% |
| Other Elements | As per standard |
HE30 aluminium alloy properties depend on temper, thickness and product form. HE30 T6 aluminium is commonly supplied where high strength and good machining performance are required.
| Property | HE30 T6 Typical Value |
|---|---|
| Tensile Strength | 295–340 MPa |
| Yield Strength / Proof Stress | 240–310 MPa |
| Elongation | 8–11% |
| Hardness | Approx. 89–95 HB |
| Modulus of Elasticity | Approx. 70 GPa |
| Shear Strength | Approx. 200–220 MPa |
| Fatigue Strength | Approx. 90–100 MPa |
| Property | Typical Value |
|---|---|
| Density | 2.70 g/cm³ |
| Melting Range | Approx. 555–650°C |
| Thermal Conductivity | Approx. 170–180 W/m·K |
| Electrical Resistivity | Approx. 0.038 µΩ·m |
| Coefficient of Thermal Expansion | Approx. 24 x 10⁻⁶ /K |
| Modulus of Elasticity | Approx. 70 GPa |
HE30 aluminium alloy provides good thermal conductivity for industrial, automotive and engineering parts. It is suitable where strength and heat transfer are both important.
HE30 aluminium alloy offers moderate electrical conductivity. It is useful in engineering parts where mechanical performance is more important than pure conductivity.
HE30 density is approximately 2.70 g/cm³. This makes HE30 aluminium alloy much lighter than steel and suitable for weight-sensitive engineering components.
HE30 T6 aluminium provides good hardness for machining, turning, milling and structural parts. HE30 hardness depends on temper and product form.
HE30 aluminium alloy offers reliable tensile strength for structural and engineering applications. HE30 bar, HE30 rod and HE30 plate are suitable for machined components and load-bearing parts.
HE30 yield strength helps components resist permanent deformation under load. This makes it useful for brackets, frames, machine parts and structural supports.
HE30 aluminium offers moderate elongation in T6 condition. Softer tempers may provide improved bending and forming performance.
HE30 aluminium corrosion resistance is good for marine, outdoor, industrial and structural environments. Surface treatment may be added for more aggressive conditions.
HE30 aluminium naturally forms an oxide layer, which improves oxidation resistance and protects the surface in normal atmospheric conditions.
HE30 alloy offers moderate wear resistance. For moving or high-friction components, anodizing or protective coating may be used.
HE30 aluminium alloy provides useful fatigue strength for applications involving repeated loading, vibration or cyclic stress.
HE30 aluminium machinability is good, especially in T6 condition. It is suitable for CNC machining, milling, drilling, boring and turning.
HE30 aluminium weldability is good for general fabrication. Proper welding method and filler material should be selected for structural assemblies.
HE30 formability depends on temper. Annealed or softer conditions offer better bending, while T6 condition provides higher strength and machining stability.
HE30 aluminium alloy can be heat treated for improved strength. T6 condition is widely used for engineering and structural applications.
| Temper | Description | Common Use |
|---|---|---|
| O | Soft annealed condition | Forming and bending |
| T4 | Solution heat-treated and naturally aged | Moderate strength |
| T6 | Solution heat-treated and artificially aged | Strong engineering components |
| T651 | Stress-relieved condition | Plates and machining parts |
HE30 aluminium plate is used for base plates, machined components, tooling plates, marine structures and engineering fabrication.
HE30 aluminium sheet is used for panels, covers, fabricated parts, construction components and industrial applications.
HE30 aluminium rod is suitable for turning, machining and precision engineering components.
HE30 aluminium bar is used for brackets, shafts, spacers, machine parts and structural members.
HE30 round bar is widely used for CNC turned parts, shafts, bushes and custom machined components.
HE30 flat bar is suitable for supports, frames, brackets, rails and fabricated parts.
HE30 extrusion is used for profiles, frames, structural sections and industrial components.
| Standard / Designation | Related Reference |
|---|---|
| Commercial Name | HE30 |
| Related Grade | 6082 |
| EN Reference | EN AW 6082 |
| Symbolic Reference | AlSi1MgMn |
| DIN Reference | 3.2315 |
HE30 aluminium equivalent grade references commonly include 6082, EN AW 6082, AlSi1MgMn and DIN 3.2315. Final equivalence should be confirmed with chemical composition and mechanical properties.
HE30 aluminium alloy is often selected when higher structural strength is required compared with general-purpose 6061 aluminium.
| Property | HE30 Aluminium Alloy | 6061 Aluminium Alloy |
|---|---|---|
| Strength | Good to high | Medium |
| Corrosion Resistance | Good | Good |
| Machinability | Good | Good |
| Structural Use | Strong suitability | General suitability |
| Product Forms | Plates, sheets, rods, bars | Plates, sheets, rods, bars |
7075 offers higher strength, but HE30 provides better weldability and corrosion resistance for general fabrication.
| Property | HE30 Aluminium Alloy | 7075 Aluminium Alloy |
|---|---|---|
| Strength | Medium to high | Very high |
| Weldability | Better | Limited |
| Corrosion Resistance | Better | Lower without protection |
| Fabrication | Easier | More restricted |
| Application Focus | Structural engineering | High-strength aerospace parts |
HE30 aluminium alloy is used for aerospace brackets, fixtures, support parts and machined components where specification permits.
HE30 aluminium corrosion resistance makes it suitable for marine fittings, ladders, frames, platforms and dock components.
HE30 aluminium alloy is used in automotive brackets, frames, machined parts and lightweight structures.
HE30 aluminium plate, HE30 aluminium bar and HE30 aluminium rod are used for machine parts, jigs, fixtures, support plates and CNC components.
HE30 structural aluminium is used for frames, walkways, platforms, supports and general construction fabrication.
Choose HE30 aluminium alloy when your project needs strength, machinability, corrosion resistance and availability in multiple engineering forms.
Russian Metals supplies HE30 aluminium plate, HE30 aluminium sheet, HE30 aluminium rod, HE30 aluminium bar, HE30 round bar, HE30 flat bar and HE30 extrusion in standard and custom sizes.
H30 aluminium alloy is an engineering aluminium grade used for structural and industrial applications. It is commonly supplied in plates, sheets, rods, bars, round bars, flat bars and extrusions.
Russian Metals supplies H30 aluminium alloy for applications where strength, corrosion resistance, machinability and lightweight metal performance are required.
H30 aluminium alloy is used in engineering, fabrication, construction, automotive, marine and industrial projects. It is suitable for applications where aluminium structural strength and practical fabrication performance are needed.
H30 aluminium alloy is a trade and engineering aluminium grade reference commonly used in aluminium supply markets. It is connected with structural aluminium alloy applications and is requested in forms such as H30 aluminium plate, H30 aluminium sheet, H30 aluminium rod, H30 aluminium bar, H30 round bar and H30 flat bar.
Common search and supply terms include:
H30 aluminium alloy is used as a market-recognised aluminium grade name for engineering and structural applications. It is commonly searched by customers looking for H30 aluminium equivalent grades, H30 aluminium alloy specification and H30 aluminium product range.
H30 aluminium alloy offers a useful combination of strength, low weight and fabrication performance. It is suitable for machined parts, structural elements, transport components, marine fabrication and industrial projects.
Russian Metals supplies H30 aluminium alloy for H30 aluminium sheet supplier, H30 aluminium plate manufacturer, H30 aluminium round bar exporter and H30 aluminium stockist in India requirements.
H30 aluminium alloy chemical composition is typically aligned with aluminium-magnesium-silicon-manganese structural alloy references.
| Element | Typical Range |
|---|---|
| Aluminium | Balance |
| Silicon | 0.70–1.30% |
| Magnesium | 0.60–1.20% |
| Manganese | 0.40–1.00% |
| Iron | Max 0.50% |
| Copper | Max 0.10% |
| Zinc | Max 0.20% |
| Chromium | Max 0.25% |
| Titanium | Max 0.10% |
| Other Elements | As per standard |
H30 aluminium mechanical properties depend on temper, section size and product form. Heat-treated conditions provide better strength and hardness for engineering use.
| Property | H30 Typical Value |
|---|---|
| Tensile Strength | 295–340 MPa |
| Yield Strength / Proof Stress | 240–310 MPa |
| Elongation | 8–11% |
| Hardness | Approx. 89–95 HB |
| Modulus of Elasticity | Approx. 70 GPa |
| Shear Strength | Approx. 200–220 MPa |
| Fatigue Strength | Approx. 90–100 MPa |
| Property | Typical Value |
|---|---|
| Density | 2.70 g/cm³ |
| Melting Range | Approx. 555–650°C |
| Thermal Conductivity | Approx. 170–180 W/m·K |
| Electrical Resistivity | Approx. 0.038 µΩ·m |
| Coefficient of Thermal Expansion | Approx. 24 x 10⁻⁶ /K |
| Modulus of Elasticity | Approx. 70 GPa |
H30 aluminium alloy has good thermal conductivity for engineering parts. It supports applications where lightweight metal and heat transfer are required.
H30 aluminium alloy provides moderate electrical conductivity. It is mainly selected for mechanical performance rather than pure electrical conductivity.
H30 density is approximately 2.70 g/cm³. The low density helps reduce overall component weight in machinery, vehicles, structures and fabricated assemblies.
H30 hardness depends on temper and form. Heat-treated H30 aluminium bars and plates provide useful hardness for machining and structural use.
H30 aluminium alloy tensile strength supports use in structural and engineering components. It is used where strength and low weight are required together.
H30 aluminium yield strength helps prevent permanent deformation in loaded parts. This is important for supports, brackets, plates, frames and machined components.
H30 elongation depends on temper. Stronger tempers provide moderate elongation, while softer tempers improve formability and bending performance.
H30 aluminium corrosion resistance makes it suitable for outdoor, construction, industrial and marine-related applications.
H30 aluminium alloy forms a natural oxide layer that helps protect the surface from oxidation in normal service conditions.
H30 aluminium provides moderate wear resistance. Surface treatment can improve wear performance in high-friction applications.
H30 aluminium alloy can be used in parts exposed to repeated load, vibration or cyclic stress, depending on design and temper selection.
H30 aluminium machinability characteristics are good in stronger tempers. It is suitable for CNC machining, cutting, drilling, milling and turning.
H30 aluminium welding properties are suitable for general fabrication. For critical structures, welding procedure and filler selection should be confirmed.
H30 aluminium formability depends on temper. Softer material is better for forming, while stronger tempers are better for machining and structural parts.
H30 aluminium alloy can be supplied in heat-treated conditions depending on required mechanical properties and application.
| Temper | Description | Common Use |
|---|---|---|
| O | Annealed soft condition | Forming and bending |
| T4 | Solution heat-treated and naturally aged | Moderate strength |
| T6 | Solution heat-treated and artificially aged | High-strength components |
| T651 | Stress-relieved condition | Machining plates and flat bars |
H30 aluminium plate is used for machine bases, support plates, structural components, tooling and fabricated parts.
H30 aluminium sheet is used for panels, covers, automotive parts, marine fabrication and construction components.
H30 aluminium rod is used for machining, turning and general engineering components.
H30 aluminium bar is suitable for shafts, brackets, spacers, machined parts and support members.
H30 round bar is suitable for CNC turned parts, bushes, sleeves, rollers and custom machined components.
H30 flat bar is used for structural supports, frames, fabrication, brackets and rails.
H30 aluminium extrusion is used for profiles, sections, channels and lightweight structural parts.
| Standard / Designation | Related Reference |
|---|---|
| Commercial Name | H30 |
| Related Grade | 6082 family reference |
| EN Reference | EN AW 6082 related reference |
| Symbolic Reference | AlSi1MgMn |
| DIN Reference | 3.2315 related reference |
H30 aluminium equivalent grades may include 6082 family references, AlSi1MgMn and related structural aluminium designations. Final grade matching should be confirmed through composition, mechanical properties and certificate.
H30 aluminium alloy is used where stronger structural performance may be required compared with general-purpose 6061 aluminium.
| Property | H30 Aluminium Alloy | 6061 Aluminium Alloy |
|---|---|---|
| Strength | Good to high | Medium |
| Corrosion Resistance | Good | Good |
| Machinability | Good | Good |
| Weldability | Good | Good |
| Application | Structural and engineering | General fabrication |
7075 provides higher strength, but H30 aluminium alloy is generally more practical for welding, fabrication and corrosion-resistant structures.
| Property | H30 Aluminium Alloy | 7075 Aluminium Alloy |
|---|---|---|
| Strength | Medium to high | Very high |
| Weldability | Better | Limited |
| Corrosion Resistance | Better | Lower without coating |
| Fabrication | Easier | More difficult |
| Main Use | Structural and industrial | High-strength aerospace |
H30 aluminium alloy may be used for aerospace-related brackets, fixtures and machined support components where specification permits.
H30 aluminium corrosion resistance makes it useful for marine fittings, frames, ladders, platforms and coastal fabrication.
H30 aluminium alloy is used for automotive brackets, panels, frames, machined parts and lightweight support systems.
H30 aluminium product range is used for CNC components, jigs, fixtures, machinery parts, spacers, support plates and engineering fabrication.
H30 structural aluminium alloy is used for platforms, walkways, frames, supports, rails and construction systems.
Choose H30 aluminium alloy when you need engineering strength, low weight, machinability and corrosion resistance in plates, sheets, bars, rods or extrusions.
Russian Metals supplies H30 aluminium plate, H30 aluminium sheet, H30 aluminium rod, H30 aluminium bar, H30 round bar, H30 flat bar and H30 extrusion as per size and project requirement.
AD35 aluminium alloy is a CIS/GOST aluminium alloy grade from the Al-Mg-Si alloy family. It is also written as Сплав АД35 in CIS markets. AD35 aluminium alloy is commonly used for extrusions, profiles, bars, rods, plates and sheets.
Russian Metals supplies AD35 aluminium alloy for structural, engineering, industrial, construction and profile manufacturing applications.
AD35 aluminium alloy is widely used for aluminium profiles and extrusion products. It provides good corrosion resistance, useful mechanical strength, weldability and formability for industrial applications.
AD35 aluminium alloy is an aluminium-magnesium-silicon alloy used for hot and cold formed products, extruded sections, profiles, pipes, bars and engineering components.
Common search and supply terms include:
AD35 aluminium alloy is well known in Russian-speaking and CIS markets. The Russian product name Алюминиевый сплав AD35 and the alternative name Сплав АД35 are used for aluminium profiles, extrusions, rods, pipes and structural parts.
AD35 aluminium alloy is useful where extrusion quality, corrosion resistance, moderate strength and lightweight performance are required. It is suitable for industrial profiles, structural sections, pipe-type products, rods, bars and construction components.
Russian Metals supplies AD35 aluminium extrusion, AD35 aluminium profile, AD35 aluminium bar, AD35 aluminium rod, AD35 aluminium plate and AD35 aluminium sheet for project-specific requirements.
AD35 aluminium alloy chemical composition is based on aluminium with magnesium and silicon as key alloying elements. Composition may vary according to applicable GOST/CIS specification and product form.
| Element | Typical Range |
|---|---|
| Aluminium | Balance |
| Silicon | 0.70–1.30% |
| Magnesium | 0.60–1.20% |
| Manganese | 0.40–1.00% |
| Iron | Max 0.50% |
| Copper | Max 0.10% |
| Zinc | Max 0.20% |
| Chromium | Max 0.25% |
| Titanium | Max 0.10% |
| Other Elements | As per standard |
AD35 aluminium mechanical properties depend on product form and heat treatment. Extruded profiles, bars and pipes may show different values based on condition.
| Product Form / Condition | Tensile Strength | Yield Strength | Elongation | Typical Use |
|---|---|---|---|---|
| AD35 Pipe, hardened and aged | Approx. 200 MPa | Approx. 100 MPa | Approx. 14% | Pipe and hollow sections |
| AD35 Pipe, quenched and artificially aged | Approx. 270 MPa | Approx. 200 MPa | Approx. 10% | Stronger pipe applications |
| AD35 Bar, hardened and aged | Approx. 195 MPa | Approx. 110 MPa | Approx. 12% | General bar applications |
| AD35 Bar, quenched and artificially aged | Approx. 315 MPa | Approx. 245 MPa | Approx. 8% | Higher strength bars |
| AD35 Profile, quenched and artificially aged | Approx. 314 MPa | Approx. 245 MPa | Approx. 8% | Structural profiles |
| AD35 Profile, standard condition | Approx. 196 MPa | Approx. 108 MPa | Approx. 12% | General extruded profiles |
| Property | Typical Value |
|---|---|
| Density | 2.70 g/cm³ |
| Melting Range | Approx. 555–650°C |
| Thermal Conductivity | Approx. 170–180 W/m·K |
| Electrical Resistivity | Approx. 0.038 µΩ·m |
| Modulus of Elasticity | Approx. 70 GPa |
| Alloy Family | Al-Mg-Si |
AD35 aluminium alloy has good thermal conductivity for aluminium profiles, rods and industrial sections. It is useful for applications where heat transfer and light weight are required.
AD35 aluminium alloy provides moderate electrical conductivity. It is mainly used as a structural and engineering alloy rather than a pure electrical conductor.
AD35 density is approximately 2.70 g/cm³. This low density helps reduce weight in structural profiles, extrusions, pipes, rods and engineering parts.
AD35 hardness depends on heat treatment and product form. Quenched and artificially aged AD35 bars and profiles provide higher hardness and strength compared with softer conditions.
AD35 tensile strength depends on product form. Quenched and artificially aged AD35 bars and profiles can provide higher tensile strength for structural applications.
AD35 yield strength is useful for extrusions, profiles and bars that must resist deformation under load.
AD35 elongation depends on condition. Softer or standard conditions usually provide higher elongation, while stronger heat-treated conditions provide higher strength with lower elongation.
AD35 aluminium corrosion resistance is good for outdoor, construction and industrial use. Protective coating or anodizing may be selected for aggressive environments.
AD35 aluminium forms a natural oxide layer that helps protect against oxidation and atmospheric corrosion.
AD35 aluminium alloy offers moderate wear resistance. Surface finishing can improve wear performance for sliding or high-contact parts.
AD35 fatigue strength depends on product form, heat treatment and design. It may be used for profiles and structural sections exposed to repeated load when properly designed.
AD35 aluminium machinability is suitable for drilling, milling, cutting and machining of bars, rods, profiles and extrusions. Tooling and cutting parameters should be selected according to temper.
AD35 aluminium weldability is good for fabrication and profile assemblies. Correct welding procedure should be selected for structural parts.
AD35 aluminium alloy offers good formability in suitable conditions and is widely used for extrusion and profile manufacturing.
AD35 aluminium alloy can be hardened and aged or quenched and artificially aged depending on the product form and required mechanical properties.
| Condition | Description | Common Use |
|---|---|---|
| Soft / Standard | Easier forming and fabrication | General profiles and sections |
| Hardened and Aged | Improved strength | Pipes, bars and profiles |
| Quenched and Artificially Aged | Higher strength | Structural extrusions and bars |
| Custom Condition | As per project specification | Special industrial applications |
AD35 aluminium extrusion is widely used for structural profiles, industrial sections, channels, frames and custom aluminium shapes.
AD35 aluminium profile is suitable for construction systems, industrial frames, railings, supports, channels and fabricated assemblies.
AD35 aluminium bar is used for machining, structural members, spacers, brackets and engineering components.
AD35 aluminium rod is suitable for turning, machining and fabricated components.
AD35 aluminium plate is used for structural plates, machine components and industrial fabrication.
AD35 aluminium sheet is used for panels, covers, fabrication and construction applications.
AD35 aluminium pipe is used for lightweight hollow sections, fabricated structures and industrial applications.
AD35 aluminium tube is used for frames, supports, profiles and engineering structures.
| Standard / Designation | Related Reference |
|---|---|
| CIS / Russian | AD35 / АД35 |
| Russian Product Name | Алюминиевый сплав AD35 |
| Alternative CIS Name | Сплав АД35 |
| Alloy Family | Al-Mg-Si |
| Related References | 6082 / AlSi1MgMn type references |
AD35 alloy equivalent grades may include АД35, Al-Mg-Si type references and nearest 6082 / AlSi1MgMn related references. Final selection should be confirmed through project specification, composition and mechanical properties.
AD35 aluminium alloy is widely used for profiles and extrusions, while 6061 is a popular general-purpose aluminium alloy.
| Property | AD35 Aluminium Alloy | 6061 Aluminium Alloy |
|---|---|---|
| Alloy Family | Al-Mg-Si | Al-Mg-Si |
| Extrusion Suitability | Good | Good |
| Corrosion Resistance | Good | Good |
| Strength | Depends on heat treatment | Medium |
| Common Use | Profiles, extrusions, bars, pipes | General engineering |
AD35 aluminium alloy is more suitable for extrusion, profile and fabrication applications, while 7075 is used for very high-strength parts.
| Property | AD35 Aluminium Alloy | 7075 Aluminium Alloy |
|---|---|---|
| Strength | Moderate to high depending on condition | Very high |
| Weldability | Better | Limited |
| Corrosion Resistance | Better | Lower without protection |
| Extrusion Use | Good | More limited |
| Application Focus | Profiles and structural parts | High-strength aerospace parts |
AD35 aluminium alloy may be used for lightweight brackets, profiles and support sections where specification permits.
AD35 aluminium corrosion resistance makes it suitable for marine-related profiles, frames and fabricated sections where protection is applied as required.
AD35 aluminium profile and AD35 aluminium extrusion are used for lightweight automotive sections, frames, support components and fabricated parts.
AD35 aluminium bars, rods, profiles and extrusions are used for machinery, frames, supports, channels, profile systems and custom industrial components.
AD35 structural aluminium applications include building profiles, frames, railings, supports, architectural sections, platforms and industrial construction systems.
Choose AD35 aluminium alloy when your project requires aluminium profiles, extrusions, bars or rods with corrosion resistance, useful strength and fabrication flexibility.
Russian Metals supplies AD35 aluminium extrusion, AD35 aluminium profile, AD35 aluminium bar, AD35 aluminium rod, AD35 aluminium plate and AD35 aluminium sheet for domestic and export requirements.
Russian Metals supplies 6082, HE30, H30 and AD35 aluminium alloys in the following forms:
| Requirement | Russian Metals Supply Support |
|---|---|
| 6082 aluminium plate supplier | Plates in required thickness and size |
| 6082 aluminium round bar manufacturer | Round bars in standard and custom diameters |
| 6082 T651 aluminium flat bar | Stress-relieved flat bars for machining |
| HE30 aluminium round bar supplier | HE30 rods and round bars |
| HE30 aluminium sheet manufacturer | Sheets in required thickness and cut size |
| H30 aluminium sheet supplier | H30 sheets for fabrication and panels |
| H30 aluminium plate manufacturer | Plates for structural and machining use |
| AD35 aluminium extrusion supplier | Extrusions and profiles as per requirement |
| AD35 aluminium profile manufacturer | Standard and custom profile support |
| AD35 aluminium bar stockist | Bars and rods for engineering applications |
Before selecting 6082, HE30, H30 or AD35 aluminium alloy, confirm:
Russian Metals helps select the correct aluminium alloy based on strength, corrosion resistance, machining, welding and fabrication requirements.
The Russian product name is Алюминиевый сплав 6082.
The Russian product name is Алюминиевый сплав HE30.
The Russian product name is Алюминиевый сплав H30.
The Russian product name is Алюминиевый сплав AD35. In CIS markets, it is also written as Сплав АД35.
6082 aluminium alloy is used for structural applications, marine parts, aerospace components, automotive frames, bridges, trusses, cranes, machine parts and industrial fabrication.
HE30 aluminium alloy is used for plates, sheets, rods, bars, structural parts, machined components, marine fabrication and industrial engineering applications.
H30 aluminium alloy is used for engineering parts, structural components, plates, sheets, bars, rods, construction systems and industrial fabrication.
AD35 aluminium alloy is used for aluminium profiles, extrusions, bars, rods, plates, sheets, pipes and structural components.
Yes, 6082 aluminium corrosion resistance makes it suitable for marine grade 6082 aluminium alloy applications such as ladders, platforms, boat fittings and coastal structures.
Yes, HE30 aluminium weldability is suitable for fabrication. Correct filler material and welding procedure should be selected for structural parts.
Yes, H30 aluminium machinability characteristics are suitable for CNC machining, drilling, milling, turning and general engineering work.
Yes, AD35 aluminium extrusion and AD35 aluminium profile products are common for industrial and construction applications.
6082 aluminium alloy density is approximately 2.70 g/cm³.
HE30 aluminium alloy density is approximately 2.70 g/cm³.
H30 aluminium alloy density is approximately 2.70 g/cm³.
AD35 aluminium alloy density is approximately 2.70 g/cm³.
Yes, Russian Metals supplies 6082 aluminium plate, 6082 aluminium sheet, 6082 aluminium bar, 6082 aluminium rod, 6082 aluminium round bar, 6082 aluminium flat bar and 6082 aluminium extrusion.
Yes, Russian Metals supplies HE30 aluminium round bar, HE30 aluminium rod, HE30 aluminium bar, HE30 aluminium plate and HE30 aluminium sheet.
Yes, Russian Metals supplies H30 aluminium plate, H30 aluminium sheet, H30 aluminium rod, H30 aluminium bar, H30 round bar and H30 flat bar.
Yes, Russian Metals supplies AD35 aluminium extrusion, AD35 aluminium profile, AD35 aluminium bar, AD35 aluminium rod, AD35 aluminium plate and AD35 aluminium sheet.
Send the required alloy designation, product form, dimensions, quantity, standard, delivery condition, testing, certificate requirements and destination for a technically correct quotation.
6082, HE30, H30 and AD35 aluminium alloy supply support.
Chemical, mechanical, heat-treatment and inspection documentation.
Product-form, cut-to-size, extrusion and drawing-based supply support.
Export packaging and international delivery assistance.