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  • Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade
  • Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade
  • Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade
  • Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade
  • Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade
  • Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade
Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade

Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade

  • 5 - 99 Pieces
    $500
  • 100 - 499 Pieces
    $300
  • 500 - 999 Pieces
    $200
  • >= 1000 Pieces
    $100

Customization:

Customized logo(Min.Order: 1000 pieces)
Customized packaging(Min.Order: 1000 pieces)
Graphic customization(Min.Order: 1000 pieces)
View product details

Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Pressure Turbine Blade Performance: Engineered to withstand extreme temperatures and high-pressure environments in steam turbines and jet engines, ensuring optimal efficiency and durability.
  • Precision Machining: Utilizes CNC machining with ±0.01mm tolerance for flawless integration into complex mechanical systems, guaranteeing reliability in critical applications.

Key features

  • 1. Advanced Material Technology

    • With Inconel superalloy construction, ensure卓越的耐高温和耐腐蚀性能,比传统不锈钢提高20%的耐久性在极端环境。

  • 2. Precision CNC Machining

    • With ±0.01mm tolerance precision, achieve unmatched dimensional accuracy for critical turbine applications.

  • 3. Extreme Environment Performance

    • Designed for continuous operation in jet engines and steam turbines, withstand temperatures up to 1,000°C and high-pressure conditions.

  • 4. Aerospace-Grade Certification Compliance

    • Certified to meet FAA and ISO standards for aerospace components, ensuring safety and reliability in critical systems.

  • 5. Modular Design Adaptability

    • Engineered with customizable mounting slots and cutouts, integrate seamlessly into diverse turbine systems for industrial or commercial use.

  • Notes:

    • The "Material Technology" point emphasizes Inconel’s superiority over stainless steel, aligning with the product’s high-performance use case.

Product details

Forging Vacuum Turbine Blade High Pressure Aircraft Blade for Steam Turbine ge 9e Jet Inconel Gas Turbine Blade

The Forging Vacuum Turbine Blade High Pressure Aircraft Blade is engineered for precision and durability in high-stress environments. Crafted from premium materials like steel, stainless steel, and Inconel, these components are designed for steam turbines, jet engines (GE 9E), and gas turbine systems. Advanced CNC machining ensures ±0.01mm tolerance, enabling seamless integration into complex machinery.

Technical specifications

FeatureSpecificationBenefit
MaterialSteel, Stainless Steel, InconelHigh corrosion resistance and heat tolerance
Tolerance±0.01mm (adjustable)Precision fit for critical machinery
MachiningCNC MachiningComplex geometries with minimal error
ApplicationSteam turbines, jet enginesReliable performance in high-pressure environments

Customization guide

Adjustable parameters include material composition (e.g., Inconel for extreme heat) and tolerance levels (down to ±0.005mm) to meet specialized needs. Surface treatments like nitriding or coatings can enhance corrosion resistance or friction reduction.

Get inspired

With Inconel’s heat resistance, you can ensure blade integrity in GE 9E jet engines operating at 900°C. The ±0.01mm tolerance guarantees flawless alignment in steam turbine assemblies, reducing wear and downtime.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Material GradeStainless SteelInconel 718Custom alloy blends
Tolerance±0.01mm±0.008mm (+15%)±0.005mm (+30%)
Surface FinishStandard polishingEnhanced coatingPremium anti-corrosion

Supplier's note

  1. Technical Breakthroughs:

    • Inconel 718: Triple the heat resistance of standard stainless steel, enabling use in GE 9E jet engines.
    • ±0.005mm Tolerance: 20% tighter than industry benchmarks, reducing assembly errors in precision machinery.
    • Advanced CNC: Achieves complex blade geometries for optimal airflow in turbines.

  2. Optimal Version Selection:

    • Base Model: Ideal for general industrial turbines (e.g., power plants) requiring cost-effective durability.
    • Advanced Model: Suitable for aerospace applications (e.g., GE 9E jet engines) needing heat resistance and tighter tolerances.
    • Pro Model: Best for extreme environments (e.g., deep-sea oil rigs) where corrosion, heat, and precision are critical.

With the Pro Model’s Inconel and ultra-tight tolerance, you can ensure blade longevity in corrosive marine conditions while maintaining 99.9% operational efficiency. Pair this with its anti-corrosion coating to eliminate downtime from rust or wear.

Frequently asked questions

  • Which turbine blade model is best suited for high-pressure aircraft engines?

  • What materials are used in your turbine blades, and why choose Inconel over stainless steel?

  • Are your turbine blades FAA or ISO certified for aerospace use?

  • Can turbine blades be customized for specific engine models like GE 9E?

  • How do I clean and maintain turbine blades to prevent corrosion?

  • Why is CNC machining critical for turbine blade production?

  • What tolerance levels do your turbine blades guarantee for steam turbine applications?

  • Are these turbine blades suitable for both aircraft and industrial steam turbines?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Material QualityAerospace, Power GenerationIndustry Standard: Steel (ASTM A36, 200 MPa tensile strength)
Our Base: Stainless Steel (316L, 500°C corrosion resistance)
Our Advanced: Inconel 718 (1,100°C heat resistance, ASTM E1096)		▲ Base: 2.5x higher corrosion resistance than steel
▲ Advanced: Withstands extreme jet engine temps (1,100°C)		Advanced: 3x higher cost than steel
Base: Moderate weight increase vs steel
Manufacturing ProcessPrecision Engineering, AutomotiveIndustry Standard: Conventional Machining (±0.1mm tolerance)
Our Base: CNC Machining (±0.05mm tolerance)
Our Advanced: CNC + Additive Manufacturing (±0.01mm tolerance)		▲ Base: 50% tighter tolerance than industry
▲ Advanced: Custom geometries with 99.9% accuracy		Advanced: Longer lead times
Base: Higher tooling costs vs conventional
Tolerance PrecisionMedical Devices, RoboticsIndustry Standard: ±0.1mm (ISO 2768)
Our Base: ±0.05mm (ISO 2768-m)
Our Advanced: ±0.01mm (custom metrology)		▲ Base: Precision for aerospace joints
▲ Advanced: Fits micro-scale assemblies (e.g., turbine nozzles)		Advanced: Requires specialized inspection tools
Base: Limited to medium-complexity parts
Heat ResistanceJet Engines, Industrial BoilersIndustry Standard: 600°C (ASTM E1096)
Our Base: 800°C (ASTM E1096)
Our Advanced: 1,100°C (ASTM E1096)		▲ Base: Operates in turbine exhaust zones
▲ Advanced: Survives GE 9E jet engine combustion (1,050°C)		Advanced: Requires protective coatings for oxidation
Base: Limited to auxiliary systems
Corrosion ResistanceMarine Equipment, Chemical PlantsIndustry Standard: 24hr salt spray (ASTM B117)
Our Base: 500hr salt spray (ASTM B117)
Our Advanced: 2,000hr salt spray (ASTM B117)		▲ Base: Suitable for offshore platforms
▲ Advanced: Outperforms titanium in acid environments		Advanced: Requires post-processing passivation
Base: Not rated for sulfuric acid
Weight-to-Strength RatioAviation, High-Speed MachineryIndustry Standard: 200 MPa/kg (steel)
Our Base: 350 MPa/kg (stainless steel)
Our Advanced: 500 MPa/kg (Inconel 718)		▲ Base: 75% lighter than steel for same strength
▲ Advanced: Reduces turbine blade weight by 40%		Advanced: 30% higher density than titanium
Base: Moderate cost premium vs steel

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