The absorption of laser radiation of powder materials based on copper and nickel is studied. The dependence of the temperature of the powder material on the power of the incident laser radiation is obtained. A comparison of the values obtained by different measurement methods is presented
In this study, a novel approach of powder surface alloying is proposed to address the issue of insuf...
Absorptances and deposited energy profiles are calculated for thin layers of metallic powder placed ...
This work deals with the planning and fabrication of a functionally gradient copper-nickel compositi...
This work investigates the use of fine Cu powder, with ~ 20 vol% smaller than 15 µm size, for the se...
The selective laser melting (SLM) behaviour of Cu10Ni in-house gas atomized powders is investigated....
This work investigates the use of fine Cu powder, with ~ 20 vol% smaller than 15 μm size, for the s...
The effect of laser radiation on a solid body leads to a change in the temperature field of the proc...
The paper compares the existing methods for obtaining metal powder compositions and reveals their sh...
In Laser Material Processing of metals, an understanding of the fundamental absorption mechanisms pl...
Absorbance is often used for simulations or validation of process parameters for powder-based laser ...
This thesis is about the investigation of the spectral interaction of electromagnetic radiation with...
Selective laser melting (SLM) is driven by the need to process near full density objects with mechan...
The successful fabrication of dense iron-based parts by selective laser melting (SLM) is still limit...
Selective laser melting can be used to build up 3D metal parts by melting metallic powders together....
Selective laser melting (SLM) of copper is gaining interest because of its potential to make geometr...
In this study, a novel approach of powder surface alloying is proposed to address the issue of insuf...
Absorptances and deposited energy profiles are calculated for thin layers of metallic powder placed ...
This work deals with the planning and fabrication of a functionally gradient copper-nickel compositi...
This work investigates the use of fine Cu powder, with ~ 20 vol% smaller than 15 µm size, for the se...
The selective laser melting (SLM) behaviour of Cu10Ni in-house gas atomized powders is investigated....
This work investigates the use of fine Cu powder, with ~ 20 vol% smaller than 15 μm size, for the s...
The effect of laser radiation on a solid body leads to a change in the temperature field of the proc...
The paper compares the existing methods for obtaining metal powder compositions and reveals their sh...
In Laser Material Processing of metals, an understanding of the fundamental absorption mechanisms pl...
Absorbance is often used for simulations or validation of process parameters for powder-based laser ...
This thesis is about the investigation of the spectral interaction of electromagnetic radiation with...
Selective laser melting (SLM) is driven by the need to process near full density objects with mechan...
The successful fabrication of dense iron-based parts by selective laser melting (SLM) is still limit...
Selective laser melting can be used to build up 3D metal parts by melting metallic powders together....
Selective laser melting (SLM) of copper is gaining interest because of its potential to make geometr...
In this study, a novel approach of powder surface alloying is proposed to address the issue of insuf...
Absorptances and deposited energy profiles are calculated for thin layers of metallic powder placed ...
This work deals with the planning and fabrication of a functionally gradient copper-nickel compositi...