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Buch
Abschlussergebnisbericht - KMU-Wissenstransferlabor „Digitale Fabrik“
(2023-04)
Der digitale Wandel stellt aufgrund der hohen Gestaltungskomplexität insbesondere kleine und mittlere Unternehmen (KMU) immer noch vor große Herausforderungen. Reifegradmodelle und Roadmaps bieten Möglichkeiten, diese Komplexität beherrschbar zu machen. Vor diesem Hintergrund hat das Fachgebiet Produktionsorganisation und Fabrikplanung an der Universität Kassel im Rahmen des Forschungsprojektes Wissenstransferlabor „Digitale Fabrik“ (Wislab) ein KMU-spezifisches Reifegradmodell, einen zugehörigen Erhebungsleitfaden ...
Dissertation
Modellierung von offenen Absorptionsanlagen zur Raum- und Prozessluftentfeuchtung
(2023)
Luftentfeuchtung erfolgt in herkömmlichen Trocknungs- und Klimatisierungsanlagen durch eine Kühlung der feuchten Luft unter ihren Taupunkt (Kondensationsentfeuchter) und einer anschließenden Erwärmung bis zu der gewünschten Temperatur. Das Prinzip dieser Betriebsweise birgt einen unnötigen Stromverbrauch. In der vorliegenden Dissertation wird daher ein alternatives Luftentfeuchtungsverfahren beschrieben, bei dem die Luftentfeuchtung durch einen offenen Absorptionsprozess realisiert wird. In dem offenen Absorptionsprozess ...
Dissertation
Die Gestaltung gesunder und effektiver digital vermittelter Kommunikation im Kontext von Remote Leadership – eine Betrachtung unter Berücksichtigung des Aspektes der psychologisch sicheren Kommunikation
(2023)
Einhergehend mit einer fortschreitenden Globalisierung und Digitalisierung nimmt auch die Verbreitung von Remote Leadership, auf Distanz vermittelter Führungs- und Kommunikationsprozesse, seit mehreren Jahren stetig zu; im Zuge der Covid-19-Pandemie hat sich diese Entwicklung nochmals beschleunigt. Unternehmen, die angesichts eines internationalen Wettbewerbs mit einem wachsenden Innovations- und Optimierungsdruck konfrontiert sind, müssen in der modernen Arbeitswelt, wollen sie wettbewerbsfähig und erfolgreich ...
Aufsatz
Experimental Analysis of Residual Stresses in CFRPs through Hole-Drilling Method: The Role of Stacking Sequence, Thickness, and Defects
(2023-05-09)
Carbon fiber reinforced plastics (CFRPs) gained high interest in industrial applications because of their excellent strength and low specific weight. The stacking sequence of the unidirectional plies forming a CFRP laminate, and their thicknesses, primarily determine the mechanical performance. However, during manufacturing, defects, e.g., pores and residual stresses, are induced, both affecting the mechanical properties. The objective of the present work is to accurately measure residual stresses in CFRPs as well ...
Aufsatz
Exploring the mechanical properties of additively manufactured carbon-rich zirconia 3D microarchitectures
(2023-07-11)
Two-photon lithography (TPL) is a promising technique for manufacturing ceramic microstructures with nanoscale resolution. The process relies on tailor-made precursor resins rich in metal–organic and organic constituents, which can lead to carbon-based residues incorporated within the ceramic microstructures. While these are generally considered unwanted impurities, our study reveals that the presence of carbon-rich residues in the form of graphitic and disordered carbon in tetragonal (t-) ZrO₂ can benefit the ...
Aufsatz
Describing mechanical damage evolution through in situ electrical resistance measurements
(2023-02-27)
The fatigue properties of metallizations used as electrical conductors in flexible electronic devices have been thoroughly studied over the years. Most studies use time-intensive characterization methods to evaluate mechanical damage. For their ease of access, in situ electrical resistance measurements are often performed along with other characterization methods. However, the data are mostly used as an indicator of failure and a thorough analysis is usually missing. This work presents some deeper analysis methods ...
Aufsatz
Influence of Cu Addition and Microstructural Configuration on the Creep Resistance and Mechanical Properties of an Fe-Based α/α′/α″ Superalloy
(2023-01-14)
Introducing Cu nanoparticles is an effective mechanism for strengthening and toughening Fe-based materials such as ultra-high-strength steels. Herein, the effect of Cu on the mechanical properties of a novel Fe-based α/α′/α″ superalloy is studied. Compared to a Cu-free reference alloy, nanoindentation reveals an increase in hardness, which was associated with the formation of Cu nanoparticles. Both alloys show room temperature (RT) compressive plastic strain at maximum stress greater than 8%, irrespective of the ...
Aufsatz
Elevated Temperature Mechanical Characteristics and Fracture Behavior of a Novel Beta Titanium Alloy
(2023-02-03)
In the present work, the elevated-temperature deformation characteristics and microstructural evolution of a Ti-5V-5Mo-5Cr-4Al alloy in solution-treatment conditions were studied under a tensile load at temperatures in the range of 25 to 550 °C and strain rates between 0.001 and 0.1 s-¹. The results obtained indicated that, essentially, dynamic recovery (DRV) was the dominant softening mechanism in the case of the regimes considered. An analysis based on transmission electron microscopy (TEM) and the assessment of ...
Konferenzveröffentlichung
Effects of the Cellular Morphology on Fatigue Deformation Mechanisms of Physically Foamed Polycarbonate
(2023)
In this study, the tension–tension fatigue behavior of foam injection molded thermoplastic microcellular Polycarbonate (PC) is characterized. The variation in morphology is obtained by modifying the mold temperature, injection volume, injection flow rate, and blowing agent content (physical and chemical) in the polymer melt. The relationship between the wide range of morphological qualities and relevant fatigue properties is made explicit via a statistical correlation coefficient analyses. The analysis is made between ...
Aufsatz
Influence of Surface Mechanical Attrition Treatment (SMAT) on Microstructure, Tensile and Low-Cycle Fatigue Behavior of Additively Manufactured Stainless Steel 316L
(2023-08-29)
Direct Energy Deposition (DED), as one common type of additive manufacturing, is capable of fabricating metallic components close to net-shape with complex geometry. Surface mechanical attrition treatment (SMAT) is an advanced surface treatment technology which is able to yield a nanostructured surface layer characterized by compressive residual stresses and work hardening, thereby improving the fatigue performances of metallic specimens. In the present study, stainless steel 316L specimens were fabricated by DED and ...