7050 铝合金粉末


7050 铝合金粉末 is a high-strength material increasingly used across aviation, aerospace, automotive and other demanding industries. This advanced alloy powder combines excellent mechanical properties with good corrosion resistance.

In this comprehensive guide, we will cover everything you need to know about 7050 aluminum alloy powder, including:

Overview of 7050 Aluminum Alloy Powder

7050 aluminum alloy powder belongs to the 7xxx series of high-strength alloys. It is considered a superior alternative to incumbent aerospace alloys like 2024 and 7075.

Key properties:

  • 高强度和硬度
  • Good fracture toughness
  • Excellent fatigue and creep resistance
  • Good stress corrosion cracking resistance
  • 低密度
  • 良好的切削性和抛光性

Alloying elements:

  • Zinc – 5.7-6.7%
  • Magnesium – 2.0-2.6%
  • Copper – 2.0-2.6%
  • Zirconium – 0.08-0.15%

Production process:

7050 alloy powder is produced using gas atomization, a process which involves melting the alloy and disintegrating the molten stream into fine droplets that solidify into powder.

Particle size ranges:

  • 15-45 microns for thermomechanical processing
  • 45-150 microns for other PM processes
  • Nanopowders under 100 nm


  • Aerospace and aviation parts
  • 汽车零部件
  • 结构部件
  • 医疗植入物
  • 3D 打印粉末

The combination of strength, toughness, machinability and corrosion resistance make 7050 alloy a versatile material across sectors.

7050 铝合金粉末

类型 7050 Aluminum Alloy Powder

7050 aluminum alloy powder is commercially available in several forms:


Produced using inert gas jets to break up molten metal into fine droplets.


  • Spherical particles with smooth surface
  • 严格的粒度分布
  • High purity and density


  • 快速成型制造
  • 金属注射成型

Water Atomized Powder

Involves disintegration of melt stream into water.


  • Irregular particle shapes
  • Wider size distribution
  • Oxidized surface, porosity
  • 降低成本


  • P/M parts with less critical performance requirements
  • MIM for consumer products

Mechanical Alloyed Powder

Powder particles are repeatedly welded, fractured and rewelld by ball milling.


  • Microstructure refinement
  • Alloy customization flexibilty
  • Oxide-free powder

Recycled Powder

Reusing scrap/waste powder from AM and MIM processes.


  • Environmental sustainability
  • Reduced material costs

The powder production method significantly influences final part properties and performance.

的特性 7050 Aluminum Alloy Powder

7050 alloy powder possesses an exceptional combination of mechanical properties:

高强度Withstands heavy loads without permanent deformation
疲劳强度Resists crack growth under cyclic stresses
断裂韧性Ability to absorb impact energy before cracking
硬度Resistance to surface wear and indentation
抗蠕变性Retains strength and shape under sustained loads and heating
耐腐蚀性Performs reliably in harsh environments
导热性Rapidly conducts heat away from parts
导电性Allows use in conductive components
低密度Reduces component weight

These properties make 7050 suitable for critical structural parts across aviation, defense, automotive and other demanding applications.

Applications and Uses of 7050 Aluminum Alloy Powder

7050 aluminum alloy powder is increasingly deployed in the following sectors and applications:

航空航天Airframe parts, wing skins, fuselage structures, fasteners, engine components
AviationSeats, doors, landing gear and wheels, hydraulic components
汽车Pistons, driveshafts, valves, brackets, gears, steering parts
工业Robotics, tooling, conveyors, rigs, marine hardware
电子产品Housings, heat sinks, EMI/RFI shielding
医疗Implants, prosthetics, instrumentation

Other niche uses include sporting goods, ammunition, high-end bicycles and camera equipment.

The lightweight strength of 7050 makes it a material of choice for critical structures and components.

7050 Aluminum Alloy Powder 规格

7050 aluminum alloy powder can be customized as per application requirements:

合金成分Zn, Mg, Cu, Zr, Mn
颗粒大小15-45 microns, 45-150 microns, nanoparticles
密度Up to 98% of theoretical
流动性Excellent to average
表面氧化物Low (<2%)
污染Minimized (ppm levels)
DefectsLow porosity and satellites

Common compositions:

  • Zn: 5.7-6.7%
  • Mg: 2-2.6%
  • Cu: 1.9-2.6%

Size ranges:

  • Fine powder <45 μm for AM
  • Coarse 45-150 μm for MIM

Controlling powder quality is vital to achieve required material performance.

Design and Engineering Standards for 7050 Alloy

Key design and quality standards for 7050 aluminum alloy include:

  • ASTM B854 – Standard Specification for 7050 Aluminum Alloy Powder
  • AMS 4126 – 7050 Alloy Metallic Powders for PM Applications
  • AMS 4290 – Metallurgical Processes for Recycle of 7050 Alloy
  • ASTM E8 – Tensile Testing of Metallic Materials
  • ISO 209 – Determination of Grain Size
  • SAE AIR5714 – Process Characterization of Powder Bed Fusion
  • AMS 2175 – Heat Treatment of Aluminum Powder Metallurgy Alloys

Compliance ensures optimal powder quality and consistent alloy performance.

Suppliers of 7050 Aluminum Alloy Powder

Reputable 7050 alloy powder manufacturers include:

Advanced Powders美国Gas atomized 7050$xx to $xxx/kg
普莱克斯表面技术公司美国Water and gas atomized$xx to $xxx/kg
Valimet美国Custom alloys and sizes$xx to $xxx/kg
Ecka Granules德国Water atomized Al alloys$xx to $xxx/kg
TLS 技术德国Gas and water atomized$xx to $xxx/kg

Other major suppliers:

  • 山特维克鹗
  • 霍加纳斯
  • 中石油粉末
  • Mitsui Kinzoku

When selecting a supplier, consider factors like production capacity, lead times, reliability, technical support and pricing.

How to Choose a 7050 Alloy Powder Supplier

Here are key considerations when choosing a 7050 aluminum alloy powder supplier:

  • 技术专长 in aluminum PM processing
  • Stringent quality assurance – sampling, testing, analysis, documentation
  • Qualifications and certifications – ISO, AS9100 etc.
  • 球形形态 capabilities for additive manufacturing
  • Customization flexibility – size, shape, composition, density
  • 生产能力 to meet demand volumes
  • 研发能力 for novel alloys and parameters
  • Reasonable pricing structure for quality products
  • Strong customer service and technical support

Partnering with a knowledgeable supplier minimizes development issues and ensures high, consistent powder quality tailored to your application.

Installing and Operating 7050 Alloy Powder Equipment

Here are some installation and operation guidelines for 7050 powder processing equipment:

设备Installation TipsOperation/Maintenance
Gas atomizerUtilities hookup, power, nitrogen, coolingMonitor gas flow, temperature; clean nozzles
MillLevel foundation, emergency stopControl speed, cooling water; media change
Mesh siftersAnchor firmlyInspect screens; clean; prevent clogging
搅拌机Ground electrically, accessDo not overmix; check blade condition
Powder feederCalibrate, test connectivityChange spiders; inspect rollers, screws


  • Use dust collection systems
  • Provide proper grounding
  • Wear appropriate PPE
  • Follow lockout/tagout procedures
  • Install emergency stops

Proper installation matched with preventive maintenance minimizes problems and improves equipment longevity.

How to Choose a 7050 Alloy Powder Equipment Manufacturer

When selecting powder equipment manufacturers, key factors include:

专业知识Experience with similar aluminum alloy equipment
Proven designsField-tested reliability
定制Ability to modify for specific needs
生产规模Matches output rate needs
Easy maintenanceQuick cleaning and part replacement
Automated featuresFor productivity and consistency
Energy efficiencyReasonable power consumption
Safety mechanismsInterlocks, E-stops, sensors
Temperature controlsFor optimal heating and cooling
培训和支持Installation help, troubleshooting

Choose industry-recognized manufacturers providing customizable equipment engineered for safety, longevity and performance.

的利弊 7050 Aluminum Alloy Powder


  • 高强度和硬度
  • 卓越的抗疲劳和抗断裂性能
  • Good corrosion and SCC resistance
  • Lightweight compared to steels
  • 高导热性和导电性
  • 良好的切削性和抛光性
  • 可回收、环保


  • Lower strength than steels and titanium alloys
  • Susceptible to galvanic corrosion
  • Requires surface protection in some environments
  • High cost compared to 2xxx and 6xxx alloys
  • 高温能力有限
  • Difficult to weld in certain tempers
  • Anisotropic properties

Understanding the strengths and limitations aids selection of 7050 alloy versus alternatives. Proper design and processing is key.

Comparing 7050 Alloy Powder to Alternatives

VS 2024 Al Alloy

  • Higher strength and fracture toughness
  • Better SCC resistance
  • 更高的成本
  • Lower thermal stability

VS 7075 Al Alloy

  • Higher strength with similar toughness
  • Better stress corrosion cracking resistance
  • Lower thermal stability
  • 更昂贵

VS 6061 Al Alloy

  • Much greater strength
  • Lower corrosion resistance
  • More difficult to weld and machine
  • 更高的成本

VS Ti-6Al-4V Alloy

  • 强度和硬度较低
  • Lighter weight
  • Better thermal and electrical conductivity
  • Lower service temperature capabilities

VS Maraging Steels

  • Lower strength but higher fracture toughness
  • Lighter weight
  • 更好的耐腐蚀性
  • Lower service temperatures

7050 aluminum alloy offers an optimal balance of strength, toughness, weight and corrosion resistance for critical applications in aerospace, aviation and other sectors.

Future Outlook

The 7050 aluminum alloy powder market is forecast to expand at 8%+ CAGR over the next decade, driven by:

  • Increasing adoption in aerospace and aviation sectors
  • Next-generation lower density aircraft components
  • Automotive lightweighting trends
  • Growth of metal additive manufacturing
  • High-performance racing applications
  • Declining use of incumbent 2xxx and 7xxx alloys

Key future trends include:

  • Development of novel 7xxx alloys rivaling 7050
  • Powder recycling and reuse initiatives
  • Nanopowder and microstructure optimization
  • Automation and smart manufacturing
  • Inventory management and just-in-time powder supply

With growing demand from high-performance sectors, continued innovation will shape the future landscape of 7050 and other advanced aluminum alloy powders.

7050 铝合金粉末


Q: What are the main alloying elements in 7050 aluminum alloy?

A: The main alloying elements are zinc, magnesium, copper and zirconium. Trace elements like silicon, iron, manganese, chromium and titanium may also be present.

Q: What is 7050 alloy used for?

A: Key applications are aerospace structural components, aviation parts, automotive components, and high-performance equipment due to its strength.

Q: Is 7050 stronger than 2024 and 7075 aluminum alloys?

A: Yes, 7050 exhibits higher yield and tensile strength compared to incumbent 2024 and 7075 aerospace alloys.

Q: Is 7050 corrosion resistant?

A: 7050 possesses good SCC resistance and corrosion resistance in certain tempers, superior to other 7xxx alloys. Proper heat treatment optimizes corrosion performance.

Q: What is the difference between 7050 and 7075 aluminum alloy?

A: 7050 has higher strength, hardness, and SCC resistance compared to 7075, while 7075 offers better fracture toughness and thermal stability.

Q: What are common tempers for 7050 aluminum?

A: Commonly used tempers include T7351, T7451, T74511, and T7651. The T7451 temper offers the best combination of strength, SCC resistance and fracture toughness.

Q: Is 7050 aluminum weldable?

A: Weldability is fair. Friction stir welding and gas metal arc welding offer good results. Susceptibility to hot cracking must be controlled with optimized filler and process parameters.

Q: What is the typical density of 7050 aluminum alloy?

A: The density of 7050 alloy is around 2.83 g/cm3, which is significantly lower than steels, nickel alloys and titanium alloys.

Q: What are common uses of 7050 alloy in the aerospace industry?

A: Structural aircraft components including wing skins, fuselage frames, bulkheads, fasteners, landing gear parts, wheels and other critical airframe parts.

Q: Is 7050 alloy cheaper than titanium alloys?

A: Yes, 7050 aluminum is significantly more economical compared to widely used titanium alloys like Ti-6Al-4V while providing substantial weight savings over steels.

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Metal3DP Technology Co., LTD 是一家领先的增材制造解决方案提供商,总部位于中国青岛。公司专注于工业应用领域的三维打印设备和高性能金属粉末。



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