5th International Conference Hybrid 2022 – Materials and Structures

Innovative Werkstoffe sind sehr oft der Wegbereiter für die Einführung neuer Technologien oder Produkte. Umgekehrt führen vielfältige und anspruchsvolle Anforderungen an Bauteile zu immer mehr unterschiedlichen Werkstoffkombinationen. Die Kombination verschiedener Werkstoffe führt zu neuen Herausforderungen bei Füge- und Verarbeitungsprozessen, Konstruktionsprinzipien und vielen weiteren Aspekten. Daher muss das Thema hybride Werkstoffe und Strukturen interdisziplinär behandelt werden. Die 5. Internationale Konferenz Hybride Werkstoffe und Strukturen behandelt das breite Themenspektrum von den Basismaterialien bis zum Design und von der Herstellung bis zur Anwendung. Damit wird die Grundlage für eine ernsthafte Diskussion über das Verhalten von Werkstoffen und Bauteilen unter anwendungsspezifischen Bedingungen geschaffen. Die einzige Einschränkung besteht in den Materialkombinationen für strukturelle Anwendungen.

Die Konferenz bietet eine fruchtbare Mischung aus Vorträgen, Diskussionen und Ausstellung. Ein interdisziplinärer Austausch von Industrie und Wissenschaft unterstützt das individuelle Networking.

Zeit- und ortsgleich findet das 23. Symposium „Verbundwerkstoffe und Werkstoffverbunde“ statt. Die Teilnahme an beiden Veranstaltungen ist mit nur einem Konferenzticket möglich. Die Rahmenveranstaltungen werden gemeinsam durchgeführt.

Das Programm im Überblick:

20.07.2022

• Hierarchical Composites with HIgh Carbon nanotube Loading
• Fatigue and fracture of ultrasonically welded aluminium alloys to carbon fiber reinforced thermoplastics
• Short-term fatigue assessment and corrosion analysis of intrinsically bonded, laser structured CFRP-Al hybrid laminates
• Correlation of surface enlargement and mechanical strength of laser-pretreated Al6082-T6 – epoxy E320 joints
• Oral-Poster-Presentation: Machine Learning as a fundamental tool in the optimization of AddJoined components
• Characterisation of fatigue failure of complex fibre metal laminate structures
• Experimental characterization of intrinsic interfaces between fiber composites and additively manufactured metal to generate input data for the virtual development of hybrid structures
• The environmental impact on the strain rate dependent energy absorption capability of a hybrid crash absorber element
• Oral-Poster-Presentation: Manufacturing and de-hybridisation of fibre-metal laminates with activatable interface
• Oral-Poster-Presentation: Layer-by-layer separation of thermoplastic composite laminates at room temperature by the application of power ultrasonics
• Oral-Poster-Presentation: Corrosion prevention in multi-material automotive structural components
• Oral-Poster-Presentation: Comparison of 3D CT image processing and experimental methods to obtain local fiber volume contents of carbon-fiber-reinforced polyamide 6 plate
• Oral-Poster-Presentation: Fracture Mechanisms of Nanostructured Cu/Ni Metal Laminate Structures
• High Velocity, Elevated Temperature Burner Rig Testing With Stress of Ceramic Matrix Composites
• Meeting the challenge of thermal joining of steel and aluminum using a new approach based on melt displacement by electromagnetic forces
• Dissimilar aluminium alloys / thermoplastic CF-PA12 joints: Influence of surface modification under climatic and corrosive stresses on the mechanical properties
• Influence of plasma coating pretreatment on the adhesion of thermoplastics on metals
• Investigation on the deformation and damage behavior in thermoplastic-based hybrid laminates considering very high cycle fatigue using high speed cameras

21.07.2022

• Fully bio-based epoxy thermosets for high performance composites: chances and challenges
• Oral-Poster-Presentation: Assessment of a novel powder manufacturing route - FAST-DB - to produce multi-material components for aerospace application
• Oral-Poster-Presentation: Manufacturing hybrid ceramic components by combining CIM and VPP
• Oral-Poster-Presentation: Environmental barrier coatings deposited by different coating technologies
• Oral-Poster-Presentation: Efficient hot forming of prepreg stacks by means of liquid contact heating
• Oral-Poster-Presentation: Technology platform for the development of application specific ceramic temperature cyclers
• Oral-Poster-Presentation: Contribution to the development of a setup for the efficient production of high-performance composite parts based on hybrid textiles
• Oral-Poster-Presentation: Automatic Anomaly Detection in X-ray CT Image Volumes from Fibre-Metal and Carbon-Fibre Laminates using
• Oral-Poster-Presentation: Electrochemical metal recovery from chrome plated PC/ABS
• Friction stir spot welding of aluminum-copper lap joints: Challenges and future perspectives
• A Benchmark for Fluid-Structure Interaction in Hybrid Manufacturing: Coupled Eulerian-Lagrangian Simulation
• Laser Welding for the Production of Hybrid Textile Composites
• Investigation on the joining of an inner organic sheet with an outer metal sheet by hemming
• Investigation of bond strength and laminate quality of fibre-metal laminate made of laser-structured Aluminium sheet and CFRP reinforcement
• On the improvement of ultrasonic joinability of additively manufactured metal-composite hybrid structures
• In-line quality assurance and process control in fully automated welding processes
• Joining of steel/CFRT-hybrid parts via non-rotational symmetric cold formed pin structures
• Friction-based mechanical fastening of hybrid metal-composite joints for industrial applications. Case studies and example of analyses for Friction Riveting
• Thermoplastic Infusion and In-Situ Polymerisation of PA-6 and Acrylic Composites
• Functionally graded ceramic-based components (FGC) manufactured by Multi Material Jetting technology
• Additive Manufacturing of Metal/Polymer Hybrid Parts – the AddJoining Technique
• Laser surface structuring for metal-polymer hybrid connections using fast modulated cw-laser radiation
• Effect of different laser treatment strategies on the bonding properties of hybrid materials
• Technology comparison of a novel SMC pressing process with the thermoplastic back injection moulding process for hybrid metal/fibre-composite lightweight structures
• A novel hybrid thermoset-thermoplastic robot-based production concept for lightweight structural parts: A special view on 3D Filament Winding

22.07.2022

• Silica-based CMC-prepreg: Industrialization hurdles
• Virtual product development of laser-based plastic-metal joints using a model-based approach
• Hybrid Components realised by Additive Manufacturing of Metallic Inserts, Tailored Fibre Placement and Resin Transfer Moulding
• Virtual Design and physical validation of a graded CFRP-Titanium-structure at the example of a lightweight strut for aircraft applications
• Experimental investigation and numerical modelling of effects of overmoulded rib foot shape, boundary conditions and residual stresses on the apparent joint strength
• Optimization of the mechanical structural properties of polymer concret by a prestressed fiber composite
• Recyclability-by-design for in-mould electronics through release layers
• A study of the rivet and die design impact on the feasibility and quality of self-piercing riveted joints of aluminum and steel sheets
• Computational study of a ceramic-titanium material compound for hybrid knee endoprosthesis
• Poster:
  
  • Effects of doping on the power factor and efficient nano-materials for thermoelectric generator
  • Group-IV(A) Janus dichalcogenide monolayers and their interfaces straddle gigantic shear and in-plane piezoelectricity
  • Interaction between residual stresses, damage characteristics and guided ultrasonic wave propagation in CFRP-steel laminates.
  • Modeling polaron hopping in ternary spinel oxides
  • Strain gage technique to quantify manufacturing-induced residual stresses in fiber metal laminates

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