Andrey Klapatyuk
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View article: Exploring the Influence of Melting Techniques on High Entropy Alloys: Waam Versus Plasma Arc and Vacuum Melting
Exploring the Influence of Melting Techniques on High Entropy Alloys: Waam Versus Plasma Arc and Vacuum Melting Open
View article: Microstructural and Mechanical Characterisation of Cantor High Entropy Alloy Produced by Wire Arc Additive Manufacturing
Microstructural and Mechanical Characterisation of Cantor High Entropy Alloy Produced by Wire Arc Additive Manufacturing Open
View article: Microstructural and Mechanical Characterisation of Cantor High Entropy Alloy Produced by Wire Arc Additive Manufacturing
Microstructural and Mechanical Characterisation of Cantor High Entropy Alloy Produced by Wire Arc Additive Manufacturing Open
View article: Atomization of the Fe-Rich Mnnicocr High-Entropy Alloy for Spherical Powder Production
Atomization of the Fe-Rich Mnnicocr High-Entropy Alloy for Spherical Powder Production Open
View article: Non-equimolar Cantor high entropy alloy fabrication using metal powder cored wire arc additive manufacturing
Non-equimolar Cantor high entropy alloy fabrication using metal powder cored wire arc additive manufacturing Open
In the current contribution, the wire arc additive manufacturing of non-equimolar Co-Cr-Fe-Mn-Ni high-entropy alloy using gas metal arc welding (GMAW) with metal powder-cored wire (MPCW) is proposed. The powder's filler of designed wire fe…
View article: Non-Equimolar Cantor High Entropy Alloy Fabrication Using Metal Powder Cored Wire Arc Additive Manufacturing
Non-Equimolar Cantor High Entropy Alloy Fabrication Using Metal Powder Cored Wire Arc Additive Manufacturing Open
View article: Non-Equimolar Cantor High Entropy Alloy Fabrication Using Metal Powder Cored Wire Arc Additive Manufacturing
Non-Equimolar Cantor High Entropy Alloy Fabrication Using Metal Powder Cored Wire Arc Additive Manufacturing Open