Polymer Competence Center Leoben GmbH (PCCL)’s Post

Developing functionally graded materials from metal scraps was a key achievement of my Ph.D research at Palermo University under the supervision of Prof. Livan Fratini and Prof. Giuseppe Ingarao. However, it was also important to prove gradation by more advanced characterization techniques such as #miniaturization of the sample to get deeper insights into local mechanical properties. I am particularly grateful to Prof. Marion Merklein for providing me the opportunity of a research stay in her lab at LFT FAU Germany.  There, we extracted such miniaturized cylindrical samples with 1.5 mm height and 1 mm diameter through wire cut EDM and performed their upsetting test. Here is a graph of upsetting results presented during the #ESAFORM 2023 and 2024 conferences (me and Prof. Ingarao) that shows gradation in the strength of a billet imparted by the friction stir consolidation process. Here are some important links to read relevant research 1. The ESAFORM 2024 conference paper focuses on the comparison of different process variants and materials based on the upsetting results of miniaturized samples https://lnkd.in/d8uyzWTh 2. The CIRP Annals 2022 paper focuses on the idea that led to the development of functionally graded material from scrap metals      https://lnkd.in/dExRiznV 

SummaPhD Position on Multi-Material Additive Manufacturing: The Advanced Manufacturing Lab (AMLZ) at ETH Zurich is offering a fully-funded PhD position as part of a Franco-Swiss research project focused on the manufacturing, characterization, and modeling of additively manufactured multi-material parts. This research aims to explore the feasibility and mechanical properties of bi-material parts produced through Laser […]

Hello LinkedIn Family, I'm thrilled to share that our research paper titled "Monitoring of multiple fabrication parameters of electrospun polymer fibers using Mueller matrix analysis" has been accepted for publication! I would like to thank all the contributors of this paper, who are always my guides and mentors in the professional and personal life as well. In this groundbreaking study, we delve into the realm of electrospun polymer fibers, exploring a novel approach for monitoring multiple fabrication parameters using Mueller matrix analysis. This cutting-edge technique promises to revolutionize the way we understand and optimize the fabrication process of polymer fibers, opening doors to enhanced applications across various industries. You can explore the accepted manuscript via this link: https://lnkd.in/g6MShsw6 You will soon be able to find the full paper at the given link above.

SummaPhD Position on Multi-Material Additive Manufacturing: The Advanced Manufacturing Lab (AMLZ) at ETH Zurich is offering a fully-funded PhD position as part of a Franco-Swiss research project focused on the manufacturing, characterization, and modeling of additively manufactured multi-material parts. This research aims to explore the feasibility and mechanical properties of bi-material parts produced through Laser […]

Dear Network, I am pleased to share with you a link to one of our latest published papers (https://lnkd.in/edDsTEVM). In this paper, we present a study that describes and explains the release of active compounds as inclusion complexes from biopolymers for various applications. The study is based on a model that incorporates thermodynamic and transport phenomena. Additionally, it considers the preparation of these compounds through solvent-free techniques using supercritical CO2. This work, which is supported by a wealth of experimental and theoretical evidence, represents a joint effort between the Universidad de Santiago de Chile (Alejandra Torres Mediano, Francisco Rodríguez Mercado, Esteban Quijada Maldonado) and the Universidad Politécnica de Madrid (Marina Patricia Arrieta). It is our intention to extend this collaboration in the longer term to encompass the development of new materials through sustainable processes, additive manufacturing and the circular economy.

#CompositeSandwichConference 🔎 Presentation highlight:  Porsche 911 – New honeycomb sandwich material for underbody panels ➡ Innovative thermoplastic honeycomb sandwich material for underbody applications in sports cars ⬅ 💡 The presented new technology for underbody panels was developed in a partnership of the companies ThermHex Waben GmbH (preform development and production), Gubesch Group (component manufacturing and automotive supplier) and Porsche AG (sports cars manufacturer). The new technology optimizes the weight, efficiency, and sustainability of the cars. The archived weight reduction in the Porsche 911 further improves the car´s performance as well as its sustainability. #compositeMaterial #SustainableInnovation #CompositeMaterials #AutomotiveEngineering #PorscheInnovation #UnderbodyTechnology #Porsche911

Today we celebrate Manufacturing Day. This day showcases the latest innovations and technologies in manufacturing and inspires the next generation of professionals to shape the industry's future. Our fellow Milad Bemani from Eurecat - Centro Tecnológico, Universitat Politècnica de Catalunya (UPC) and RMIT University is pioneering research into the rapid fatigue evaluation of additive manufacturing specimens and components. His research project aims to evaluate the fatigue limit, mechanism, and strength of different additive manufacturing materials such as stainless and maraging steels, aluminium and titanium by using the rapid fatigue evaluation method, known as the stiffness method, Milad's project offers a faster, cheaper and easier way to understand the fatigue mechanism and fracture toughness of AM products. Read more about his project here: https://ow.ly/fE2H50TB8yc #MFGDay24 #ManufacturingDay #Research #Innovation #Manufacturing #AdditiveManufacturing #REDI #REDIprogram

Continuous Crystallization at MIT Evaluation of a tower crystallizer. Of course I like it because there is a unique implementation of BlazePAT.com here for crystallizer characterization, not crystallization charactorization 😊

Continuous improvement is the key to achieving great results 🦾 Prensilia, in collaboration with Jozef Stefan Institute, continues its research activities on magnetic elastomers. We are exploring different combinations of elastomers to optimize mechanical and magnetic properties of the resulting materials. Can you spot the difference between the two samples below? Both mechanical and magnetic properties of the elastomers are characterized. Do you want to know more about the elastomers we use? This is great, as we recently released on Zenodo a dataset containing the mechanical properties of a bunch of commercial elastomers typically used in the field ➡️ https://lnkd.in/ehUNqB8S

🔥 Read our Review Paper 📚 Recent Advances in Additive Manufacturing of Fibre-Reinforced Materials: A Comprehensive Review 🔗 https://lnkd.in/dThiDpEs 👨🔬 by Stylianos Liampas, Nikolaos Kladovasilakis, PhD, Konstantinos Tsongas and Eleftheria Maria Pechlivani 🏫 Information Technologies Institute (ITI) / International Hellenic University #AdditiveManufacturing #carbonfibre