Alloy X-750 Powder
Alloy X-750 powder metallurgy allows parts to be manufactured through methods like metal injection molding (MIM), hot isostatic pressing (HIP), additive manufacturing, and spray deposition. These techniques enable the production of small, complex components with fine microstructures.
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Table of Contents
Alloy X-750 is a nickel-chromium-iron-molybdenum alloy that offers excellent corrosion resistance and high-temperature strength. It is widely used in applications that require resistance to aqueous corrosion, oxidation and other chemical environments.
Alloy X-750 powder metallurgy allows parts to be manufactured through methods like metal injection molding (MIM), hot isostatic pressing (HIP), additive manufacturing, and spray deposition. These techniques enable the production of small, complex components with fine microstructures.
Overview of Alloy X-750 Powder
Alloy X-750 powder has the following key characteristics:
Composition: Nickel-chromium-iron alloy with molybdenum, titanium, aluminum, and niobium additions
Particle shape: Spherical, irregular or mixed
Size range: 1-100 microns
Common size grades: -100 mesh, -325 mesh, 10-45 microns
Production methods: Gas atomization, water atomization
Key properties: Excellent corrosion resistance, high-temperature strength, oxidation resistance, phase stability
Main applications: MIM, HIP, AM, thermal spray coatings
Advantages: Allows small, complex component fabrication, microstructural control, near-net-shape production
Limitations: Higher cost than wrought products, powder handling challenges, parameter optimization needed
Chemical Composition
Alloy X-750 powder has a typical composition as shown below:
Alloy X-750 Powder Composition
Element | Weight % |
---|---|
Nickel (Ni) | 72.0 min |
Chromium (Cr) | 14.0-17.0 |
Iron (Fe) | 5.0-9.0 |
Molybdenum (Mo) | 8.0-10.0 |
Titanium (Ti) | 0.7-1.2 |
Aluminum (Al) | 0.2-0.8 |
Niobium (Nb) | 0.4-1.0 |
The nickel provides corrosion resistance while chromium improves high temperature strength and molybdenum enhances creep resistance. Minor additions of titanium, aluminum and niobium optimize mechanical properties. The composition is balanced to maximize performance in harsh environments up to 1300°F.
Powder Characteristics
Alloy X-750 powder is characterized by properties like particle shape, size distribution, flow rate, apparent density, and microstructure.
Particle Shape
- Spherical, satellite, irregular or mixed
- Sphericity impacts packing density, flowability
- Satellites can cause segregation issues
Size Distribution
- Represented by D10, D50 and D90 particle sizes
- Narrow distribution ensures uniform properties
- Common size grades: -100 mesh, -325 mesh, 10-45 microns
Flow Rate
- Angle of repose under 30° ensures good flow
- Affected by factors like particle shape, size range
- Important for powder feeding during AM or MIM
Apparent Density
- Density packed powder bed, usually 40-60% of alloy density
- Influences final part density and properties
Internal Microstructure
- Gas atomized powder has fine grains and defects
- Water atomized powder has large satellites and pores
- Defects can act as failure points during service
Powder Production Methods
The two main production routes for Alloy X-750 powder are:
Gas Atomization
- Molten alloy stream impinges on gas jets
- Produces spherical particles with lower oxygen pickup
- Allows better control of size distribution
Water Atomization
- Molten stream impinges on water jets
- Yields smaller particles than gas atomization
- Causes high oxygen content and satellites
Gas atomized powder has generally powder characteristics but water atomized powder has cost benefits for some applications. The powder production method controls final particle shape, defects level and flow behavior.
Mechanical Properties
Alloy X-750 powder enables engineering components with the following mechanical properties through correct processing:
Alloy X-750 Powder Mechanical Properties
Property | As-HIP Condition | Precipitation Hardened |
---|---|---|
Density | 8.22 g/cc | 8.22 g/cc |
Tensile Strength | 105-120 ksi | 160-185 ksi |
Yield Strength | 40-60 ksi | 140-170 ksi |
Elongation | 35-40% | 15-25% |
Hardness | Rockwell B 80-85 | Rockwell C 35-42 |
HIP parts show lower strength in the as-HIP condition. Further heat treatment induces precipitation hardening raising strength levels while lowering ductility. Parts can be fabricated to meet diverse mechanical property requirements through process optimization.
High Temperature Performance
Precipitation hardened Alloy X-750 powder components exhibit the following properties at high temperatures:
Alloy X-750 Powder High Temperature Performance
Temperature | 700°F | 1000°F | 1200°F | 1300°F |
---|---|---|---|---|
Tensile Strength (ksi) | 160 | 140 | 120 | 110 |
Creep Rupture Life (hrs) | 1000 | 500 | 200 | 100 |
Oxidation resistance | Excellent | Very Good | Good | Fair |
Alloy X-750 resists softening, creep and oxidation up to 1300°F making it well suited for structural applications under long-term mechanical loading and corrosive environments. It outperforms stainless steels and lower alloyed products.
Fabrication Techniques Using Alloy X-750 Powder
The key methods for processing Alloy X-750 powder include:
Metal Injection Molding (MIM)
- Mixing with binders, mold injection, solvent debinding, sintering
- Allows complex, precision net-shape components
- Tight dimensional control, excellent surface finish
Hot Isostatic Pressing (HIP)
- Consolidating encapsulated powder using high pressure
- Produces near net-shape parts, low machining
- Can eliminate internal porosity, refine grains
Additive Manufacturing (AM)
- Building parts layer-by layer using laser/electron beams
- Ideal for prototypes, small production runs
- Design freedom for complex shapes
Thermal Spray Coatings
- Depositing molten powder on substrates
- Wear/corrosion resistant coatings possible
- Limited coating thickness/build-up
Each technique utilizes the beneficial powder characteristics for high-performance component manufacturing.
Applications of Alloy X-750 Powder
Due to its excellent elevated temperature performance and corrosion resistance, Alloy X-750 powder is used to manufacture components for:
Oil and Gas Extraction
- Downhole tools, valves, wellheads
- Pumps, pressure vessels, piping elements
Aerospace and Defense
- Engine components like combustion cans, spacers
- Airframe parts subjected to fatigue and heat
Automotive and Motorsports
- Turbocharger rotors and housings
- Exhaust system components and manifolds
Chemical Processing Industry
- Heat exchangers, reaction vessels
- Pumps and valves for corrosive fluids
Biomedical Industry
- Surgical instruments like scalpels, clamps
- Implants and prosthetic devices
Energy Generation
- Heat exchangers for concentrating solar power
- Nuclear reactor internals and tooling
The combination of fabricability, mechanical performance and corrosion resistance allows Alloy X-750 powder to serve critical applications across industries where reliability and safety are vital.
Suppliers of Alloy X-750 Powder
Alloy X-750 powder suitable for HIP, AM and MIM can be sourced from manufacturers like:
Alloy X-750 Powder Suppliers
Supplier | Production Method | Particle Sizes |
---|---|---|
Sandvik Osprey | Gas atomized | 15-45 microns |
TLS Technik | Gas atomized | 10-50 microns |
Carpenter Powder Products | Gas atomized | -100 mesh to -325 mesh |
Hoganas | Water atomized | Under 45 microns |
Pometon Powder | Gas atomized | 10-63 microns |
These companies can provide various particle size distributions and powder characteristics to meet application requirements. Some also offer toll powder processing services.
Cost Analysis
Alloy X-750 powder is more expensive than standard stainless steel powders. Some typical powder prices are:
Alloy X-750 Powder Pricing
Supplier | Powder Type | Cost |
---|---|---|
Sandvik | Osprey X-750 -100 mesh | $165/kg |
TLS Technik | Atomized X-750 20-63 μm | $100/kg |
Hoganas | Water atomized | $75/kg |
Pometon | Gas atomized 10-45 μm | $140/kg |
Cost depends strongly on particle size range, production method (gas vs water atomization), order volume, and purity level. Prices above are approximate for reference. Operations like HIP and MIM using Alloy X-750 powder enable significant cost reduction over machining from bulk alloys.
FAQs
Q: What is the difference between gas and water atomized Alloy X-750 powder?
A: Gas atomization produces more spherical particles with lower oxygen pickup and better size distribution control compared to water atomization. However, water atomized powder has a lower cost despite higher oxygen levels and irregular particle shapes.
Q: Is Alloy X-750 powder compatible with 3D printing methods?
A: Yes, Alloy X-750 shows excellent processing behavior with powder bed fusion and directed energy deposition additive manufacturing. Parameters need optimization to achieve high density and properties.
Q: Does Alloy X-750 powder require special handling precautions?
A: Protective measures are advised due to the fine particle size distribution. Use appropriate personnel protective equipment, minimize dust generation via local exhaust ventilation, avoid ignition sources, and frequently clean equipment.
Q: What heat treatments are used on HIPped Alloy X-750 powder?
A: Solution annealing followed by multiple step aging treatments allow precipitation strengthening for enhanced strength levels along with stability at elevated temperatures.
Q: What is the typical surface finish achieved in metal injection molding with Alloy X-750 powder?
A: MIM processing permits surface finishes around Ra 0.1 μm (4 μin) directly after sintering. This allows many components to bypass finishing steps.
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