Impact of different pore types on the tensile and fatigue properties of AlSi10Mg parts produced by laser powder bed fusion. In Eujin Pei (Hrsg.), Progress in Additive Manufacturing, 06.08.2025. [PUMA: ifsw myown laser peer additivemanufacturing aluminium] URL
Combining additive and subtractive laser processing to produce small holes and narrow grooves of unlimited depth. Optics & Laser Technology, (192):113443, Elsevier BV, Dezember 2025. [PUMA: myown ablation peer additivemanufacturing micromaterialprocessing cutting ultrashortpulse drilling] URL
Comparison of in-process laser drying with furnace and vacuum drying to reduce moisture of AlSi10Mg powder processed in Laser Powder Bed Fusion. In Michael Schmidt (Hrsg.), Procedia CIRP, (124):135–140, Elsevier BV, 2024. [PUMA: myown peer additivemanufacturing aluminium] URL
Comparison of in-process laser drying with furnace and vacuum drying to reduce moisture of AlSi10Mg powder processed in Laser Powder Bed Fusion. In Michael Schmidt (Hrsg.), Procedia CIRP, (124):135–140, Elsevier BV, 2024. [PUMA: myown laser peer additivemanufacturing aluminium] URL
Local laser heat treatment of AlSi10Mg as-built parts produced by Laser Powder Bed Fusion. In Michael Schmidt (Hrsg.), Procedia CIRP, (124):74–77, Elsevier BV, 2024. [PUMA: myown peer additivemanufacturing aluminium] URL
Local laser heat treatment of AlSi10Mg as-built parts produced by Laser Powder Bed Fusion. In Michael Schmidt (Hrsg.), Procedia CIRP, (124):74–77, Elsevier BV, September 2024. [PUMA: myown peer additivemanufacturing aluminium] URL
Stream Finishing of Additively Manufactured AlSi10Mg PBF-LB Parts: Influence on Surface Quality and Fatigue Behaviour. Procedia CIRP, (123):173–178, Elsevier BV, 2024. [PUMA: myown peer AdditiveManufacturing SurfaceTreatment Aluminium] URL
Exceeding the Limits in Laser Materials Processing by Bridging Additive and Subtractive Manufacturing with Continuous Wave and Ultrashort Pulsed Lasers - Manufacturing of Parts with Undercuts. 2024. [PUMA: myown ablation additivemanufacturing micromaterialprocessing ultrashort selectivelasermeltingslm macromaterialprocessing pulse processdevelopment] URL
Adjusting the microstructure of additively manufactured parts with tailored temperature fields by the combination of powder bed fusion with cw-laser and ablation with ultrashort laser pulses. In Bo Gu, und Hongqiang Chen (Hrsg.), SPIE, 2024. [PUMA: Heat-dissipatingStructures myown PBF-LB/M Ablation Solidification Simulation AdditiveManufacturing AlSi10Mg UltrashortPulse Microstructure]
Adjusting the microstructure of additively manufactured parts with tailored temperature fields by the combination of powder bed fusion with cw-laser and ablation with ultrashort laser pulses. In Bo Gu, und Hongqiang Chen (Hrsg.), Laser 3D Manufacturing XI, (12876)SPIE, März 2024. [PUMA: Heat-dissipatingStructures myown Heat-dissipatinStructures PBF-LB/M Heat-dissipating Ablation Solidification USP with Simulation Additive AdditiveManufacturing of AlSi10Mg field structures UltrashortPulse manufacturing Microstructure temperature] URL
Potential of contactless support structures for improving the part quality of AlSi10Mg PBF-LB parts. Fraunhofer Direct Digital Manufacturing Conference DDMC 2023, Bernhard Müller; Fraunhofer IWU, März 2023. [PUMA: myown Design laser peer AdditiveManufacturing Aluminium]
Exceeding the Limits in Laser Materials Processing by Bridging Additive and Subtractive Manufacturing with Continuous Wave and Ultrashort Pulsed Lasers - Manufacturing of Parts with Undercuts. Laser 3D Manufacturing XI, (12876)SPIE, März 2024. [PUMA: myown ProcessDevelopment SelectiveLaserMelting Ablation MicroMaterialProcessing SLM AdditiveManufacturing UltrashortPulse MacroMaterialProcessing] URL
Taking the precision of powder bed fusion to the next level - with in-situ laser ablation. 2021. [PUMA: myown from:manuelhenn ablation additivemanufacturing micromaterialprocessing ultrashortpulse drilling] URL
Increasing the precision of Laser-Based Powder Bed Fusion by process combination with in situ laser ablation. 12th CIRP conference on Photonic Technologies (LANE), September 2022. [PUMA: myown from:manuelhenn ablation additivemanufacturing micromaterialprocessing ultrashortpulse]
Novel laser-based powder bed fusion processes for the production of next generation electrical drives. LaserFocusWorld, Juni 2022. [PUMA: myown from:manuelhenn additivemanufacturing micromaterialprocessing ultrashortpulse] URL
Combining LPBF and ultrafast laser processing to produce parts with deep microstructures. 12th CIRP conference on Photonic Technologies (LANE), September 2022. [PUMA: myown from:manuelhenn ablation additivemanufacturing micromaterialprocessing ultrashortpulse]
Tuning the Hardness of Produced Parts by Adjusting the Cooling Rate during Laser-Based Powder Bed Fusion of AlSi10Mg by Adapting the Process Parameters. Metals, (12)122022. [PUMA: myown IFSW hardness laser lpbf peer additivemanufacturing AlSi10Mg from:arturleis properties] URL
Robotic‑assisted plate osteosynthesis of the anterior pelvic ring and acetabulum: an anatomical feasibility study. Journal of Robotic Surgery, 2022. [PUMA: myown medical laser lpbf peer additivemanufacturing from:arturleis] URL
PEGASOS - A New Linking Mechanism for Modular Osteosynthesis Plates in Minimally Invasive Acetabular Surgery. Journal of Medical Devices, ASME International, Oktober 2021. [PUMA: myown fswsend:unibiblio ifswsend:unibiblio additive from:maxhossfeld hossfeld peer laser lpbf additivemanufacturing from:arturleis] URL
Laser-based Powder Bed Fusion with 16 kW. 2021. [PUMA: myown laser lpbf additivemanufacturing additive high-power from:arturleis]