UNS N07090 Alloy Properties and Applications

# UNS N07090 Alloy Properties and Applications

## Introduction to UNS N07090 Alloy

UNS N07090 is a nickel-based superalloy known for its exceptional high-temperature strength and corrosion resistance. This alloy belongs to the family of precipitation-hardening nickel-chromium-cobalt alloys, making it suitable for demanding applications in aerospace, power generation, and chemical processing industries.

## Chemical Composition

The chemical composition of UNS N07090 plays a crucial role in its performance characteristics:

– Nickel (Ni): 45-50%
– Chromium (Cr): 18-21%
– Cobalt (Co): 15-21%

– Molybdenum (Mo): 3-5%
– Titanium (Ti): 2.5-3.5%
– Aluminum (Al): 1.2-1.8%
– Iron (Fe): ≤2.0%
– Carbon (C): ≤0.12%
– Boron (B): ≤0.015%
– Zirconium (Zr): ≤0.07%

## Mechanical Properties

UNS N07090 exhibits impressive mechanical properties across a wide temperature range:

### Room Temperature Properties

– Tensile Strength: 1200-1400 MPa
– Yield Strength: 800-1000 MPa
– Elongation: 10-15%
– Hardness: 35-40 HRC

### Elevated Temperature Properties

– Tensile Strength at 650°C: 900-1100 MPa
– Creep Resistance: Excellent up to 815°C
– Fatigue Strength: Superior at high temperatures

## Physical Properties

The physical characteristics of UNS N07090 include:

– Density: 8.2 g/cm³
– Melting Range: 1260-1335°C
– Thermal Expansion Coefficient: 13.5 × 10⁻⁶/°C (20-1000°C)
– Thermal Conductivity: 11.4 W/m·K at 100°C
– Electrical Resistivity: 1.25 μΩ·m at 20°C

## Heat Treatment

Proper heat treatment is essential for optimizing the properties of UNS N07090:

– Solution Treatment: 1080-1120°C followed by rapid cooling
– Aging Treatment: 700-800°C for 8-16 hours
– Stress Relieving: 850-900°C for 2-4 hours

## Corrosion Resistance

UNS N07090 offers excellent corrosion resistance in various environments:

– Oxidation resistance up to 1100°C
– Resistance to sulfidation and carburization
– Good performance in chloride-containing environments
– Resistance to hot corrosion in gas turbine applications

## Fabrication and Machining

Working with UNS N07090 requires special considerations:

### Forming

– Hot working recommended between 980-1175°C
– Cold forming possible but requires intermediate annealing
– Low ductility at room temperature

### Machining

– Requires rigid machine setups
– Use positive rake angles and sharp cutting tools
– Recommended to use carbide or ceramic tooling
– Generates high cutting forces

### Welding

– Gas tungsten arc welding (GTAW) preferred
– Requires post-weld heat treatment
– Matching filler metals recommended
– Susceptible to hot cracking if not properly controlled

## Applications of UNS N07090

The unique combination of properties makes UNS N07090 suitable for various demanding applications:

### Aerospace Industry

– Turbine blades and vanes
– Combustion chamber components
– Afterburner parts
– Exhaust systems

### Power Generation

– Gas turbine components
– Steam turbine blades
– Nuclear reactor parts
– High-temperature fasteners

### Industrial Applications

– Chemical processing equipment
– Heat treatment fixtures
– High-temperature springs
– Fasteners