... Abstract High prices and complex control are still an inhibitor to the wider use of robotic systems. Additive Manufacturing in combination with automated design, on the one hand, enables the low-cost production of robots and mechanism and, on the other hand, creates new possibilities...

... Abstract During the last decades, metal additive manufacturing (AM) technology has transitioned from rapid prototyping application to industrial adoption owing to its flexibility in product design, tooling, and process planning. Thus, understanding the behavior, interaction, and influence...

... Abstract Powder-based additive manufacturing (AM) technologies are commonly used to fabricate intricate-shape three-dimensional (3D) composite parts. The present study provides further insights into powder melt pool behavior and microstructure evolution during additive manufacturing...

... Abstract Manufacturing industries across the globe are now adopting additive manufacturing (AM) practices over the traditional manufacturing process due to less waste generation and other economic and emissions benefits. Additive manufacturing can also be considered a key enabling technology...

... depending on built orientation, and offsets wear anisotropy. The wear mechanism is discussed as well. electron beam melting sliding wear additive manufacturing titanium Proceedings of the ASME 2022 International Mechanical Engineering Congress and Exposition IMECE2022 October 30-November 3, 2022...

... Abstract In recent years, the reduction in the entry cost of additive manufacturing has allowed for a paradigm shift in research and development methodologies worldwide. Explicitly focusing on FDM-based manufacturing and its role in the e-design process, this technology has dramatically reduced...

... Abstract A fast additive manufacturing (AM) protocol to fabricate multi-network hydrogels is reported in this work. The gas-permeable PDMS film creates a polymerization-inhibition zone, facilitating the continuous stereolithography (SLA) 3D printing of hydrogels. The fabricated multi-bonding...

... Abstract The surge of growth in additive manufacturing (AM) has brought about increased interest in smart devices and advanced manufacturing. Fused Filament Fabrication (FFF) often presents itself as the starting equipment for industrial applications and hobby enthusiasts. The introduction...

... challenges such as poor machinability, high work hardening, and inherent springback effects, which render them difficult to tackle through conventional manufacturing routes. Additive manufacturing (AM) can alleviate the aforementioned issues associated with NiTi shape memory alloys (SMAs). In addition...

... Abstract Wire arc additive manufacturing (WAAM) process, following the directed energy deposition (DED) technique, has evolved as one of the most prominent additive manufacturing (AM) technologies to fabricate large and intricate shapes of metallic components. The physical basis of the WAAM...

... Abstract Additive manufacturing (AM) is a growing field in which products are created through the addition of materials in a layer-by-layer fashion. Ceramics are typically manufactured using powder compaction and sintering. Ceramic AM is typically executed using Selective Lase Sintering (SLS...

... frequency and mass constraints. The prototypes of the designs are fabricated using the additive manufacturing technique. topology optimization natural frequency aerospace additive manufacturing Proceedings of the ASME 2022 International Mechanical Engineering Congress and Exposition IMECE2022...

... weight. Currently, additive manufacturing (AM) has enabled rapid prototyping of high-resolution metastructures at small scales. Deposition of a conductive coating layer on the metastructure can effectively introduce electrical conductivity in MBPS. However, the coupling between the electrical response...

... and 0.83 are achieved, respectively. The results demonstrate the feasibility of the proposed approach in measuring the randomness in material properties of FFF-based printed materials. additive manufacturing mechanical properties of materials uncertainty characterization machine learning design...

... with low amounts of agglomeration. The utilization of zinc oxide (ZnO) as a mechanical additive in DLP manufacturing demonstrated a novel method for increasing part strength with functional nanoparticles. Due to the design freedom gained with additive manufacturing, nanocomposites produced promise...

...-gauge based micro-force sensor is designed using finite element analysis (safety factor > 3.5 and load capacity of 0.8N) and subsequently prototyped using additive manufacturing. Sensor components were prototyped using additive and traditional manufacturing, assembled and characterized using a data...

... the shortcoming of casting processes, Additive Manufacturing (AM) is widely used for fabricating patterns, cores, and molds (Rapid Casting - RC). Several applications concerning rapid investment casting (RIC) through Fused Filament Fabrication (FFF) and Stereolithography (SLA) were developed. However, a techno...

... Abstract Additive Manufacturing (AM) of spare parts is a compelling production route with various benefits to the industry in terms of cost, lead time, and quality. Multiple research studies have highlighted the positive impact of high-performance manufacturing polymers such as Polyether Ether...

... the pure strut-based lattice. additive manufacturing lightweighting cellular lattice Proceedings of the ASME 2022 International Mechanical Engineering Congress and Exposition IMECE2022 October 30-November 3, 2022, Columbus, Ohio IMECE2022-95942 CELLULAR LATTICES WITH STRUTS AND PLATES Nandika...

... test itself. Therefore, a greater understanding of how to achieve reliable and consistent Free-Free fatigue results is crucial for the advancement of aerospace structures and systems. aerospace fatigue turbine engines additive manufacturing titanium Proceedings of the ASME 2022...