Rudolf Pichler scite author profile

Rudolf Pichler

5Publications

81Citation Statements Received

73Citation Statements Given

How they've been cited

173

How they cite others

Affiliations

Graz University of Technology, Voestalpine (Austria)

Publications

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Influence of Scanning Strategies on Processing of Aluminum Alloy EN AW 2618 Using Selective Laser Melting

et al. 2018

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This paper deals with various selective laser melting (SLM) processing strategies for aluminum 2618 powder in order to get material densities and properties close to conventionally-produced, high-strength 2618 alloy. To evaluate the influence of laser scanning strategies on the resulting porosity and mechanical properties a row of experiments was done. Three types of samples were used: single-track welds, bulk samples and samples for tensile testing. Single-track welds were used to find the appropriate processing parameters for achieving continuous and well-shaped welds. The bulk samples were built with different scanning strategies with the aim of reaching a low relative porosity of the material. The combination of the chessboard strategy with a 2 × 2 mm field size fabricated with an out-in spiral order was found to eliminate a major lack of fusion defects. However, small cracks in the material structure were found over the complete range of tested parameters. The decisive criteria was the elimination of small cracks that drastically reduced mechanical properties. Reduction of the thermal gradient using support structures or fabrication under elevated temperatures shows a promising approach to eliminating the cracks. Mechanical properties of samples produced by SLM were compared with the properties of extruded material. The results showed that the SLM-processed 2618 alloy could only reach one half of the yield strength and tensile strength of extruded material. This is mainly due to the occurrence of small cracks in the structure of the built material.

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Effect of Process Parameters and High-Temperature Preheating on Residual Stress and Relative Density of Ti6Al4V Processed by Selective Laser Melting

et al. 2019

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The aim of this study is to observe the effect of process parameters on residual stresses and relative density of Ti6Al4V samples produced by Selective Laser Melting. The investigated parameters were hatch laser power, hatch laser velocity, border laser velocity, high-temperature preheating and time delay. Residual stresses were evaluated by the bridge curvature method and relative density by the optical method. The effect of the observed process parameters was estimated by the design of experiment and surface response methods. It was found that for an effective residual stress reduction, the high preheating temperature was the most significant parameter. High preheating temperature also increased the relative density but caused changes in the chemical composition of Ti6Al4V unmelted powder. Chemical analysis proved that after one build job with high preheating temperature, oxygen and hydrogen content exceeded the ASTM B348 limits for Grade 5 titanium.

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Connectivity as a prior challenge in establishing CPPS on basis of heterogeneous IT-software environments

Brillinger

Pichler

Schall

et al. 2019

Procedia Manufacturing

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VAIQ Strip - An On-Line System for Controlling the Mechanical Properties of Hot Rolled Strip

Andorfer

Auzinger

Hirsch

et al. 1998

IFAC Proceedings Volumes

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Improved Rolling-Mill Automation by Means of Advanced Control Techniques and Process Models

Frank

Pichler

Schoisswohl

et al. 1998

IFAC Proceedings Volumes

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Rudolf Pichler

Influence of Scanning Strategies on Processing of Aluminum Alloy EN AW 2618 Using Selective Laser Melting

Effect of Process Parameters and High-Temperature Preheating on Residual Stress and Relative Density of Ti6Al4V Processed by Selective Laser Melting

Connectivity as a prior challenge in establishing CPPS on basis of heterogeneous IT-software environments

VAIQ Strip - An On-Line System for Controlling the Mechanical Properties of Hot Rolled Strip

Improved Rolling-Mill Automation by Means of Advanced Control Techniques and Process Models

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