Yearly Archives: 2025

CompositesWorld May 02, 2025

Industry is encouraged to attend this May event which educates promotes and recognizes technical advancements in thermosets across multiple industries.

CompositesWorld May 02, 2025

Integration of Synthomer Clima resins into Henkel Technomelt hot-melt adhesive portfolio targetsxA0significant Scope 3 GHG emissions reductions.

sme.org Apr 30, 2025

This April the future of manufacturing took center stage in Detroit. SME proudly hosted two of the industryx27s most influential events AeroDef Manufacturing and RAPID x2B TCT 2025 bringing together innovators visionaries and changemakers from around the world.

Škoda Storyboard Apr 29, 2025

Phys.org Apr 30, 2025

openPR.com Apr 14, 2025

ACS Publications Apr 03, 2025

ResearchGate Mar 31, 2025

openPR.com Apr 22, 2025

Press release - IMARC Group - FRP Resin Manufacturing Plant Report- Project Cost and Setup Layout - published on openPR.com

ACS Publications Apr 15, 2025

ResearchGate Apr 14, 2025

CompositesWorld Apr 18, 2025

Installation of LSAM printer broadens RAW Ideax2019s ability to work with advanced composites and manufacture parts with greater efficiency and precision.

CompositesWorld Apr 21, 2025

A recent time study compares the layup of a wing spar using prepreg with AampampPx2019s TX-45 continuous braided reinforcementxA0versusxA0traditional twill woven prepreg.

CompositesWorld Apr 21, 2025

Helical carbon nanotubes produce scalable nanocompositesxA0that reducexA0weak interlaminar bonding improvexA0bonding support repair and healing and more.

CompositesWorld Apr 22, 2025

Subsidiaries focused on applications related to composites and clean energy report new U.S. and international hydrogen orders.

openPR.com Apr 22, 2025

Press release - The Insight Partners - EV Composites Market Profiles of Top Companies and Their Growth Strategies - published on openPR.com

CompositesWorld Apr 22, 2025

Since its installation the rapid heatingcooling press has become of great importance to thexA0Institute for Lightweight Structuresx2019 work.

Nature Apr 21, 2025

The progressive damage behavior and failure mechanism of molded carbon fiber reinforced composite laminates under tensile and three-point bending loads were studied. The mechanical properties and failure mechanism of composite laminates were studied by theoretical analysis numerical simulation and experimental characterization. The results show that the tensile failure mode of molded carbon fiber reinforced composite laminates presents the phenomenon of resin matrix cross-section fracture fiber fracture and fiber pull-out. Under three-point bending load the main failure modes of molded carbon fiber reinforced composite laminates are matrix crack interlayer separation and fiber fracture. Based on the progressive energy dissipation theory and the incremental method the FEA-VUMAT model is established which can accurately predict the tensile three-point bending response and failure mechanism. The predicted load8211displacement curves and load disturbance curves of the model are in good agreement with the experimental results. The prediction accuracy of the maximum tensile load flexural modulus and flexural strength is 97 96 and 93 respectively which verifies the validity of the model.

CompositesWorld Apr 22, 2025

AGCx2019s Fluonx2B Compounds are engineered to improve material properties and extend application reach.

Press Register Apr 22, 2025

Nature Apr 22, 2025

Multistability is the phenomenon by which a material changes shape quickly between multiple stable states upon the application of an external trigger. Typically fibre-reinforced composites assembled into laminates with 177820145176 or 017690176 layup exhibit bistability. These materials have commonly rectangular geometries restricting their integration into more complex systems such as soft robotic actuators or biomimetic devices. One approach to increase the number of stable states is to locally vary the fibre orientation while tailoring the geometry of the bilayer laminate. This strategy is explored here using flower-shaped laminates as proof-of-concept. The dimensions of the flower8217s petals as well as the local fibres8217 orientations are varied using local and global coordinates systems. The morphing and the number of stable states are studied using the Finite Element Method FEM under various mechanical loading methods. The results demonstrate that multistability can be obtained by varying the geometry and the local fibre orientations. Generally larger width-to-length ratios for the petals are also better for generating stable states. The simulated results are compared and discussed and could be used as a benchmark for exploring such systems in experiments or for designing even more complex multistable structures to meet the needs of soft robotics or other applications.