Vincent Mann scite author profile

Quantitative measured values for absorption of copper and its alloys are jet unknown in the temperature range between 30 °C and 500 °C which has to be passed before material melts in the initial phase of laser beam welding. Thus this paper investigates temperature and wavelength dependent absorption for VIS and IR wavelengths. For this purpose specimens of copper and copper alloys are heated up and reflected laser light from the surface is measured by using an Ulbricht sphere in combination with a photodiode. During welding processes inert gases are in use to reduce oxidation. Hence the influence of shielding gases on the absorption will also be taken into account during the heating process of the specimens. Consequently this paper provides results for the temperature dependent absorption of copper and copper alloys for different wavelengths at atmospheric conditions and argon shielding.

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Influence of focal spot diameter and beam oscillation on the process efficiency of laser beam welding utilizing a direct diode laser

Schaumberger

Mann

Mödl

et al. 2018

Procedia CIRP

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Vincent Mann

Effect of Laser Beam Alloying Strategies on the Metallurgical and Mechanical Properties of Hot Forming Tool Steels

Testing of New Materials and Computer Aided Optimization of Process Parameters and Clamping Device During Predevelopment of Laser Welding Processes

Influence of oscillation frequency and focal diameter on weld pool geometry and temperature field in laser beam welding of high strength steels

Influence of Temperature and Wavelength on Optical Behavior of Copper Alloys

Influence of focal spot diameter and beam oscillation on the process efficiency of laser beam welding utilizing a direct diode laser

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