Conference Tools for 10th International Symposium on Superalloy 718 and Derivatives (2023)

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About this Abstract
Meeting	10th International Symposium on Superalloy 718 and Derivatives (2023)
Symposium	Superalloy 718 and Derivatives
Presentation Title	Characterization of the Anisotropic Behaviour of Inconel 718 Parts Manufactured by Wire Arc Additve Manufacturing
Author(s)	Karin Hartl, Christopher Wallis, Martin Bielik, Pier Paolo Curti, Martin Stockinger
On-Site Speaker (Planned)	Karin Hartl
Abstract Scope	The usage of additive manufacturing as a process for component production is becoming increasingly important, as it offers enormous potential for material savings and therefore cost reduction. In particular, wire arc Directed Energy Deposition (wire arc DED) processes are arousing a great deal of interest in several industries by its high deposition rates at low equipment acquisition costs and the low buy-to-fly ratio. This process is being specifically investigated for aerospace and space applications, as it allows the production of large structural complex near-net-shape components in small batches. However, a major drawback of this technology is the high anisotropic behaviour of the manufactured structures in the as-welded state. Since the nickel-base alloy Inconel 718 is an anisotropic material, in which introduced textures strongly influence the mechanical properties, the impact of the wire arc DED processing route on the mechanical properties as well as the underlying microstructure is specifically focused on in this study. Using a plasma arc as heat source and Inconel 718 wire as feedstock material, test walls are produced in order to characterize the created material. In addition to the identification of factors influencing the process, temperature cycles are measured at different positions during the build-up. The resulting microstructure is subsequently evaluated macroscopically as well as microscopically and examined regarding pores and precipitates. SEM/EDX analysis is carried out to investigate the underlying microstructure of the additively manufactured parts. Furthermore, mechanical properties are evaluated in the build-up direction as well as transversal to this direction in order to characterize the anisotropy of the material.
Proceedings Inclusion?	Definite: At-meeting proceedings

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Abnormal Grain Growth Maps of Wrought Ni-base Superalloys

Alloy Design and Development of a Novel Ni-Co Based Superalloy GH4251

An ICME Framework to Predict the Microstructure and Yield Strength of INCONEL 718 for Different Heat Treatments

Application of CALPHAD Based Tools to Modeling of Alloy 718

Application of Computational Materials and Process Modeling to Current and Future Aero-engine Component Development and Validation

Characterization of Laser Powder Bed Fusion of Nickel Based Superalloy Haynes 282

Characterization of the Anisotropic Behaviour of Inconel 718 Parts Manufactured by Wire Arc Additve Manufacturing

Characterization of γ′ Precipitation Behavior in Additively Manufactured IN738LC Superalloy via In-situ Small-angle Neutron Scattering

Compatibility of Wrought Superalloys with Supercritical CO₂

Competitor Ti-comprising Refractory High Entropy Alloys to Superalloy 718 for Aeroengine Applications

Correlating Alloy 718 and Haynes 282 Solidification Microstructures to Local Thermal History using Laser Powder Bed Fusion Process Monitoring

Design of Graded Transition Interlayer for Joining Inconel 740H Superalloy with P91 Steel using Wire-arc Additive Manufacturing

Effect of Pre-straining on the Tensile and Stress-rupture Properties of a Novel Ni-Co Based Superalloy

Effect of Short-term Isothermal Exposure on the Ductility Signature of Waspaloy in the Temperature Range of 750-950°C – A Comparison with HaynesŽ 282Ž

Effects of High-temperature Oxidation on Fatigue Life of Additive-manufactured Alloy 625

Effects of Scan Strategy Induced Microstructural Differences on Thin-wall SLM IN718 Fatigue Performance

Fabrication and Weldability Aspects of Ni- and Ni-Fe Based Superalloys – A Review

Factors Influencing Propensity for Stress Relaxation Cracking in Inconel Ž Alloy 740HŽ and Practical Guidance for Applications

High-temperature Properties of Alloy 718 Made by Laser Powder-bed Fusion

Hot Corrosion Behavior of a GH4720Li Disk Superalloy at 700℃

Hot Ductility and Microstructural Evolution of Hastelloy X Produced by Laser Metal Deposition using Powder as Feedstock Material (DED-p)

In-situ HT-EBSD Measurements and Calibration of Multi-class Model for Grain Growth and δ-phase Dissolution Kinetics of Alloy 718

IN718 Cold Gas Repair Spray of Large Cavities – Microstructure and Residual Stresses

Influence of Morphology and Size Distribution of Haynes 230 Particles on the Powder Spreading Behavior and Performance on Selective Laser Melting

Investigating Deformation Mechanisms in a Creep-deformed 718-variant Superalloy

Investigating the Influence of Build Parameters and Porosity on Fatigue of AM IN718

Keyhole TIG Welding of New Co-lean Nickel-based Superalloy G27

Linking Stress Rupture Properties to Processing Parameters of HAYNESŽ 718 Nickel Superalloy via Machine Learning

Local Assessment of Mechanical Properties in Forged Alloy 718 Components Based on the Simulation of the Microstructure Evolution During Production

Long Term Thermal Stability and Oxidation Resistance of HAYNES 233 Alloy

Manufacturing Large Superalloy Pipe Bends

Mechanical and Microstructural Properties of Brazed Honeycomb Liner Material Haynes 214

Meeting the Challenges of the Future by Understanding Our Past

Microstructural and Tensile Properties Evolutions of Direct-aged Waspaloy Produced by Wire Arc Additive Manufacturing

Microstructural Studies of Heat-Treated Alloy 625 Fabricated by Laser Powder Bed Fusion

Microstructure and Mechanical Properties of Selective Laser Melting Processed TiC/GTD222 Nickel-based Composite

Microstructure Evolution During Post-heat Treatment of Haynes 282 Alloy Processed by Wire-arc Additive Manufacturing

Multi-variate Process Models for Predicting Site-specific Microstructure and Properties of Inconel 706 Forgings

Preferential γ' Precipitation on Coherent Annealing Twin Boundaries in Alloy 718

Segregation and Freckles in Alloy 718 and Related Alloys

Subcritical Crack Growth of 718 Alloy in Marine Exposure Conditions and Microstructural Modeling

Surface Roughness of Additively Manufactured IN718 & H282 Superalloys from Multi-size and Multi-laser Machines

Tailoring the γ- γ′-γ″ Dual Superlattice Microstructure of Ni-based Superalloy IN725 by High Temperature Aging and Nb/Ta Additions for Superior Creep Properties

Tensile Performance of Direct Energy Deposited IN718 and Oxide Dispersed Strengthened IN718

Tensile Properties of Inconel 718 Produced by LMD-Wire

The Effect of Microstructure on the Strength of VDM Alloy 780

Towards Enhancing Hot Tooling to Form High -𝛾′ Superalloys

Understanding Annealing Behavior during Post-build Heat Treatment of Ni-based Alloys Across Additive Manufacturing Processes

(LBN - P1) Investigation of the Deformation Mechanisms for Bi-Modally Distributed γ’ Precipitates in Allvac 718Plus Superalloy

(LBN - P2) Phase Stability and Phase Transformation Related to Nb/Ta Additions in a Ni-based Superalloy

(LBN - P3) Development of Ni Based Superalloys with Medium Entropy Alloys Concept

(LBN - P4) Laser-Powder Bed Fusion Additive Manufacturing of Haynes 282 Concentrating Solar-Thermal Power (CSP) Plant Parts: Printability, Geometry, Surface, and Microstructure.

(LBN - P5) Phase Evolution and Tensile Deformation of IN718-René41 Graded Superalloy Fabricated by Directed Energy Deposition

(LBN - P6) Exploring High Temperature Fretting Wear Behaviour in Wrought and Additively Manufactured DA-718 Superalloy

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