Add to ORKGMicrostructural characterisation of a cast Al-Si alloy was carried out after laser surface alloying with Ni and Ti. When Ni rather than Ti was used for alloying, more severe segregation of the alloying element in the surface alloyed layer was observed. This segregation was attributed to the higher density of Ni. The phases found in the alloyed layer in both cases could be explained by assuming the ternary systems to be equivalent to the corresponding pseudobinary systems, i.e. Al-Si-Ni and Al-Si-Ti ternary systems being equivalent to (Al, Si) -Ni and (Al, Si) - Ti pseudobinary systems, respectively. Segregation of Ni in the alloyed layer resulted in the formation of high Ni-containing phases and low Ni-containing phases in close proximity, ...
There is a growing interest in laser melting processes, e.g., for metal additive manufacturing. Mode...
Microstructure of the bonding zones (BZs) between laser-clad Ni-alloy-based composite coatings and s...
A hybrid-part made of two materials was fabricated by selective laser melting (SLM) of AlSi10Mg on a...
Microstructural characterisation of a cast Al-Si alloy was carried out after laser surface alloying ...
In order to obtain basic understanding of microstructure evolution in laser-surface-alloyed layers, ...
An Nd:YAG laser was used for surface alloying of aluminium AA1200. The alloying powder was a mixture...
Effects of Ti alloying during laser-induced Ni silicide formation is studied. Unique triple layer ...
Laser-induced alloying effects on the composition and structure of different Ni/Ti multilayer struct...
The influence of Al on the phase formation between Ni and Si(001) was investigated by altering the A...
Increasing interest is to apply advanced laser technology for surface cladding on aluminium alloys o...
In the current study, laser-surface alloying (LSA) of Nimonic 80 (a Ni-based superalloy) was conduct...
The aim of presented paper is an investigation of the structure changes in AlSi9Cu alloy after remel...
laser cladding is often performed on iron or titanium base alloys. In the present work, this method ...
The surfaces of Al99.99 and AlSi10Mg are alloyed with laser radiation using Cr and Ni which are blow...
Using a continuous-wave CO2 laser, surface engineering of a Ti-6Al-4V alloy through a combined treat...
There is a growing interest in laser melting processes, e.g., for metal additive manufacturing. Mode...
Microstructure of the bonding zones (BZs) between laser-clad Ni-alloy-based composite coatings and s...
A hybrid-part made of two materials was fabricated by selective laser melting (SLM) of AlSi10Mg on a...
Microstructural characterisation of a cast Al-Si alloy was carried out after laser surface alloying ...
In order to obtain basic understanding of microstructure evolution in laser-surface-alloyed layers, ...
An Nd:YAG laser was used for surface alloying of aluminium AA1200. The alloying powder was a mixture...
Effects of Ti alloying during laser-induced Ni silicide formation is studied. Unique triple layer ...
Laser-induced alloying effects on the composition and structure of different Ni/Ti multilayer struct...
The influence of Al on the phase formation between Ni and Si(001) was investigated by altering the A...
Increasing interest is to apply advanced laser technology for surface cladding on aluminium alloys o...
In the current study, laser-surface alloying (LSA) of Nimonic 80 (a Ni-based superalloy) was conduct...
The aim of presented paper is an investigation of the structure changes in AlSi9Cu alloy after remel...
laser cladding is often performed on iron or titanium base alloys. In the present work, this method ...
The surfaces of Al99.99 and AlSi10Mg are alloyed with laser radiation using Cr and Ni which are blow...
Using a continuous-wave CO2 laser, surface engineering of a Ti-6Al-4V alloy through a combined treat...
There is a growing interest in laser melting processes, e.g., for metal additive manufacturing. Mode...
Microstructure of the bonding zones (BZs) between laser-clad Ni-alloy-based composite coatings and s...
A hybrid-part made of two materials was fabricated by selective laser melting (SLM) of AlSi10Mg on a...