Chamara Kumara scite author profile

Owing to the inherent nature of the process, typically material produced via electron beam melting (EBM) has a columnar microstructure. As a result of that, the material will have anisotropic mechanical properties. In this work, anisotropic elastic properties of EBM built Alloy 718 samples at room temperature were investigated by using experiments and modelling work. Electron backscatter diffraction data from the sample microstructure was used to predict the Young's modulus. The results showed that the model developed in the finite element software OOF2 was able to capture the anisotropy in the Young's modulus. The samples showed transversely isotropic elastic properties having lowest Young's modulus along build direction. In addition to that, complete transversely isotropic stiffness tensor of the sample was also calculated.

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Toward a better understanding of phase transformations in additive manufacturing of Alloy 718

Kumara

Balachandramurthi

Goel

et al. 2020

Materialia

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Thermal Conductivity in Suspension Sprayed Thermal Barrier Coatings: Modeling and Experiments

et al. 2016

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A novel arc heat treatment technique for producing graded microstructures through controlled temperature gradients

et al. 2017

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Chamara Kumara

Microstructure modelling of laser metal powder directed energy deposition of alloy 718

Modelling of anisotropic elastic properties in alloy 718 built by electron beam melting

Toward a better understanding of phase transformations in additive manufacturing of Alloy 718

Thermal Conductivity in Suspension Sprayed Thermal Barrier Coatings: Modeling and Experiments

A novel arc heat treatment technique for producing graded microstructures through controlled temperature gradients

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