Best inconel 718 powder for 3D printing

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Overview of Inconel 718 Powder Inconel 718 is a precipitation hardenable nickel-based superalloy powder widely used for additive manufacturing across aerospace, oil & gas, power generation and automotive industries. This article provides a detailed guide to Inconel 718 powder. Key aspects covered include composition, properties, AM print parameters, applications, specifications, suppliers, handling, inspection methods, comparisons…

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Overview of Inconel 718 Powder

Inconel 718 is a precipitation hardenable nickel-based superalloy powder widely used for additive manufacturing across aerospace, oil & gas, power generation and automotive industries. This article provides a detailed guide to Inconel 718 powder.

Key aspects covered include composition, properties, AM print parameters, applications, specifications, suppliers, handling, inspection methods, comparisons to alternatives, pros and cons, and FAQs. Tables are used to present information in an easy-to-reference format.

Composition of Inconel 718 Powder

The composition of Inconel 718 is:

Elemento % do Peso Objetivo
Níquel 50 – 55 Elemento da matriz principal
Cromo 17 – 21 Resistência à oxidação
Ferro Equilíbrio Fortalecedor de solução sólida
Nióbio 4.75 – 5.5 Endurecimento por precipitação
Molibdênio 2.8 – 3.3 Solid solution strengthening
Titânio 0.65 – 1.15 Formador de metal duro
Alumínio 0.2 – 0.8 Endurecimento por precipitação
Carbono 0,08 máximo Formador de metal duro

Trace amounts of cobalt, boron, copper and magnesium are also added to enhance properties.

Properties of Inconel 718 Powder

Key properties of Inconel 718 include:

Propriedade Descrição
alta resistência Tensile strength 1050 – 1350 MPa
Phase stability Retains strength after prolonged use up to 700¡«C
Resistência à corrosão Resistant to aqueous corrosion and oxidation
Soldabilidade Readily weldable with matching filler
Fabricability Easy to form and machine
Creep resistance High stress rupture strength at high temperatures

The properties make Inconel 718 suitable for the most demanding applications.

AM Print Parameters for Inconel 718 Powder

Typical parameters for printing Inconel 718 powder include:

Parâmetro Valor típico Objetivo
Altura da camada 20 – 50 Ã×m Balance speed and resolution
Potência do laser 195 – 350 W Derretimento suficiente sem evaporação
Velocidade de digitalização 700 – 1300 mm/s Density versus build rate
Espaçamento da escotilha 80 – 160 Ã×m Propriedades mecânicas
Estrutura de suporte Mínimo Fácil remoção
Prensagem isostática a quente 1120¡«C, 100 MPa, 3h Eliminar vazios internos

The parameters depend on factors like build geometry, temperature management and post-processing needs.

Applications of 3D Printed Inconel 718 Parts

Inconel 718 parts made by AM are used in:

Indústria Componentes
Aeroespacial Turbine blades, disks, hot section parts
Oil & gas Downhole tools, valves, pumps
Geração de energia Combustion cans, transition ducts
Automotivo Turbocharger wheels, exhaust valves
Médico Implantes ortopédicos, ferramentas cirúrgicas

Benefits over wrought parts include complex geometries and reduced buy-to-fly ratios.

Specifications of Inconel 718 Powder for AM

Inconel 718 powder must meet the following specifications for 3D printing:

Parâmetro Especificação
Intervalo de tamanho de partícula 10 – 45 Ã×m
Formas das Partículas Morfologia esférica
Densidade Aparente > 4 g/cc
Densidade de Batida > 6 g/cc
Vazão de fluxo do corredor > 23 segundos para 50 g
Pureza >99,9%
Conteúdo de oxigênio < 100 ppm

Custom size distributions and controlled composition available.

Suppliers of Inconel 718 Powder

Prominent Inconel 718 powder suppliers include:

Fornecedor Localização
Praxair Estados Unidos
Carpenter Carpenter Pó Produtos Estados Unidos
Sandvik Osprey Reino Unido
Tecnologia LPW Reino Unido
Erasteel França
AP&C Canadá

Prices range from $50/kg to $150/kg, influenced by quality and order quantity.

Handling and Storage of Inconel 718 Powder

As a reactive material, Inconel 718 powder requires controlled handling:

  • Store sealed containers in a cool, dry inert atmosphere
  • Prevent exposure to moisture, air, temperature extremes
  • Use properly grounded equipment during transfer
  • Avoid dust accumulation and ignition sources
  • Recomenda-se ventilação local com exaustão
  • Follow applicable safety guidelines

Correct storage/handling prevents composition changes or hazards.

Inspection and Testing of Inconel 718 Powder

Inconel 718 powder batches are validated using:

Método Parâmetros testados
Análise granulométrica Distribuição de Tamanho de Partícula
imagens SEM Morfologia da partícula
EDX Química e composição
XRD Fases presentes
Picnometria Densidade
Vazão de fluxo do corredor Fluidez do pó

Testing per ASTM standards ensures batch-to-batch quality consistency.

Comparing Inconel 718 to Alternative Superalloy Powders

Inconel 718 compares with other alloys as:

Liga Custo Capacidade de impressão Soldabilidade Força
Inconel 718 Baixo Bom Excelente Médio
Inconel 625 Médio Excelente Excelente Baixo
Inconel 939 Muito alto Razoável Limitada Excelente
Haynes 282 Alto Bom Limitada Excelente

For balanced properties at lower cost, Inconel 718 supersedes other Ni superalloys for many applications.

Pros and Cons of Inconel 718 Powder for AM

Prós Contras
Proven material credentials in AM Lower high temperature strength than some alloys
Excellent weldability and machinability Susceptible to solidification cracking during printing
Readily printed into complex shapes Requires controlled atmosphere handling
Cost advantage over exotic superalloys Significant post-processing often required
Available from range of suppliers Relatively low hardness after printing

Inconel 718 enables high performance AM at a reasonable cost.

Frequently Asked Questions about Inconel 718 Powder

Q: What particle size range works best for printing Inconel 718 alloy?

A: A range of 15-45 microns provides the optimum combination of flowability, high resolution, and high density parts.

Q: What post processing is typically required for Inconel 718 AM parts?

A: Hot isostatic pressing, heat treatment, and machining are commonly needed to eliminate voids, optimize properties, and achieve tolerances.

Q: Is Inconel 718 easier to 3D print than other Ni superalloys?

A: Yes, its excellent weldability and lower cracking susceptibility make Inconel 718 one of the easier Ni-based superalloys to process by AM.

Q: What industries use Inconel 718 alloy for metal 3D printing?

A: Aerospace, oil & gas, power generation, automotive, and medical sectors are major applications benefiting from additively manufactured Inconel 718.

Q: Does Inconel 718 require supports when 3D printing?

A: Minimal supports are recommended on overhangs and bridged sections to prevent deformation and allow easy removal after printing.

Q: What defects can occur when printing Inconel 718 powder?

A: Potential defects are cracking, porosity, distortion, incomplete fusion, and surface roughness. Most can be prevented with optimized parameters.

Q: What hardness can be expected with Inconel 718 AM components?

A: Hardness after printing is typically 30-35 HRC. Post-processes like aging can increase it to 40-50 HRC for higher wear resistance.

Q: What accuracy can be obtained with Inconel 718 printed parts?

A: Comparable dimensional tolerances and surface finishes to CNC machined components can be achieved after post-processing.

Q: Is hot isostatic pressing mandatory for Inconel 718 3D printed parts?

A: HIP eliminates internal voids and improves fatigue life. It may not be required for non-critical applications.

Q: What alloy powder has properties closest to Inconel 718 for AM?

A: Inconel 625 has comparable corrosion resistance and weldability to 718 but lower strength. Inconel 939 trades weldability for higher strength.

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