Best IN939 Powder for 3D Printing in 2023

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Overview of IN939 Powder for 3D Printing IN939 is a high-performance nickel-based superalloy powder designed for additive manufacturing of critical components needing exceptional mechanical properties at high temperatures. This article provides a comprehensive guide to IN939 powder for 3D printing applications across aerospace, automotive, energy and industrial sectors. Key aspects covered include IN939 composition, properties,…

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Overview of IN939 Powder for 3D Printing

IN939 is a high-performance nickel-based superalloy powder designed for additive manufacturing of critical components needing exceptional mechanical properties at high temperatures. This article provides a comprehensive guide to IN939 powder for 3D printing applications across aerospace, automotive, energy and industrial sectors.

Key aspects covered include IN939 composition, properties, print parameters, applications, specifications, suppliers, handling, inspection, comparisons to alternatives, advantages and limitations, and frequently asked questions. Quantitative data is presented in easy-to-reference tables.

Composition of IN939 Powder

IN939 has a complex precipitation hardening alloy composition:

unsur Berat % Makna
Nikel Keseimbangan Principal matrix element
Krom 15 – 18 Ketahanan oksidasi
Aluminium 3.8 – 4.8 Penguat pengendapan
Titanium 0.9 – 1.4 Penguat pengendapan
Kobalt 12 – 15 Solid solution strengthening
Tantalum 3.8 – 4.8 Carbide former
Karbon 0.05 – 0.15 Carbide former
Boron 0.006 – 0.012 Grain boundary strengthener

Trace quantities of zirconium, magnesium and sulphur are also added for enhanced properties.

Properties of IN939 Powder

IN939 possesses an exceptional combination of properties:

Property Deskripsi
kekuatan tinggi Excellent tensile and creep rupture strength up to 1050¡«C
Stabilitas termal Strength maintained up to 1000¡«C
Creep resistance High stress-rupture life at high temperatures
Ketahanan oksidasi Forms protective Cr2O3 oxide scale
Thermal fatigue resistance Resists cracking during thermal cycling
Phase stability Microstructure stable after prolonged exposures
Tahanan terhadap korosi Resistant to hot corrosion, oxidation, sulfidation

The properties enable use under extreme thermal and mechanical loads.

3D Printing Parameters for IN939 Powder

Typical AM processing parameters for IN939 include:

Parameter Nilai tipikal Makna
Layer thickness 20-50 ×m Resolution vs build speed
Kekuatan laser 250-500 W Peleburan yang cukup tanpa penguapan
Kecepatan pemindaian 800-1200 mm/s Density vs production rate
Jarak penetasan 100-200 Ã×m Sifat mekanik
Struktur pendukung Minimal Penghapusan mudah
Penekanan isostatik panas 1160¡«C, 100 MPa, 3h Menghilangkan porositas

Parameters are optimized for attributes like density, microstructure, build rate, and post-processing requirements.

Applications of 3D Printed IN939 Parts

Additively manufactured IN939 components serve critical applications including:

Industri Komponen
Aeroangkasa Bilah turbin, baling-baling, pembakar
Pembangkit Listrik Hot gas path parts, heat exchangers
Otomotif Turbocharger wheels, valves
Pemrosesan kimia Pumps, valves, reaction vessels

Benefits over conventionally processed IN939 include complex geometries and reduced lead time.

Specifications of IN939 Powder for 3D Printing

IN939 powder for AM must meet exacting specifications:

Parameter Spesifikasi
Ukuran partikel Tipikal 15-45 ¼ m
Bentuk Partikel Morfologi bulat
Kepadatan Semu > 4 g/cc
Kepadatan Ketuk > 6 g/cc
Debit aliran ruangan > 23 detik untuk 50 g
Kemurnian > 99,9%
Kandungan Oksigen <100 ppm

Tighter tolerances, custom size distributions, and controlled impurity levels available.

Suppliers of IN939 Powder

Reputable suppliers of IN939 powder include:

Pemasok Lokasi
Sandvik Osprey Inggris
Carpenter Aditif Amerika Serikat
Praxair Amerika Serikat
AP&C Kanada
Erasteel Swedia
AMETEK Amerika Serikat

Pricing for IN939 powder ranges from $110/kg to over $220/kg based on quality and order volume.

Handling and Storage of IN939 Powder

As a reactive powder, careful handling of IN939 is needed:

  • Store sealed containers in a cool, inert atmosphere
  • Prevent contact with moisture, oxygen, acids
  • Use properly grounded equipment
  • Avoid dust accumulation to minimize explosion risk
  • Local exhaust ventilation recommended
  • Wear appropriate PPE while handling

Proper techniques and controls prevent IN939 powder oxidation or contamination.

Inspection and Testing of IN939 Powder

IN939 powder is validated using:

Metode Parameter yang Diuji
Analisis ayak Pembagian Ukuran Partikel
Pencitraan SEM Morfologi partikel
EDX Kimia dan komposisi
XRD Fase yang ada
Pycnometry Kepadatan
Debit aliran ruangan Kemampuan aliran bubuk

Testing per applicable ASTM standards ensures batch consistency.

Comparing IN939 to Alternative Alloy Powders

IN939 compares to other Ni-based superalloys as:

Aloi Kekuatan temperatur tinggi Biaya Kemampuan cetak Duktilitas
IN939 Luar biasa Tinggi Luar biasa Rendah
IN738 Baik Sedang Luar biasa Sedang
IN718 Adil Rendah Baik Luar biasa
Hastelloy X Luar biasa Tinggi Adil Sedang

For balanced properties and processability, IN939 supersedes alternatives like IN718 or Hastelloy X.

Pros and Cons of IN939 Powder for 3D Printing

Kelebihan Kekurangan
Exceptional high temperature strength Expensive compared to IN718
Excellent oxidation and creep resistance Significant parameter optimization needed
Complex geometries feasible Limited room temperature ductility
Faster processing than cast/wrought Controlled storage and handling environment
Comparable properties to cast alloy Sulit untuk mesin setelah mencetak

IN939 enables high-performance printed parts but with higher costs and controlled processing needs.

Frequently Asked Questions about IN939 Powder for 3D Printing

Q: What particle size range works best for printing IN939?

A: A particle size range of 15-45 microns provides good flowability combined with high resolution and density. Finer particles below 10 microns can improve density and surface finish.

Q: Does IN939 require any post-processing after 3D printing?

A: Post processes like hot isostatic pressing, heat treatment, and machining are usually needed to eliminate porosity, relieve stresses, and achieve final tolerances and surface finish.

Q: What precision can be achieved with IN939 printed parts?

A: After post-processing, dimensional accuracy and surface finish comparable to CNC machined parts can be achieved with IN939 AM components.

Q: Are support structures necessary for printing IN939 powder?

A: Minimal supports are recommended for complex channels and overhangs to prevent deformation and facilitate easy removal. IN939 powder has good flowability.

Q: What alloy powder is the closest alternative to IN939 for AM?

A: IN738 is the closest alternative in terms of balanced properties and maturity for additive manufacturing. Other alloys like IN718 or Hastelloy X have some trade-offs.

Q: Is IN939 compatible with direct metal laser sintering (DMLS)?

A: Yes, IN939 is readily processable by major powder bed fusion techniques including DMLS along with selective laser melting (SLM) and electron beam melting (EBM).

Q: What density is achievable with 3D printed IN939 components?

A: With optimized parameters, densities over 99% are achievable, matching properties of traditionally processed IN939 products.

Q: How do the properties of printed IN939 compare to cast alloy?

A: Additively manufactured IN939 exhibits comparable or better mechanical properties and microstructure compared to conventional cast and wrought forms.

Q: What defects can occur when printing with IN939 powder?

A: Potential defects are cracking, distortion, porosity, surface roughness, incomplete fusion etc. Most can be prevented by proper parameter optimization and powder quality.

Q: Is hot isostatic pressing (HIP) mandatory for IN939 AM parts?

A: HIP eliminates internal voids and improves fatigue resistance. For less demanding applications, heat treatment alone may suffice instead of HIP.

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