Hybrid machining technologies have evolved - from specialized manufacturing processes into practical production tools.
“Additive manufacturing” describes a range of technologies that convert CAD models into 3D forms, including stereolithography and fused deposition modeling, for polymers and other non-metallic ...
The dynamics of additive manufacturing encompass a complex interplay of heat transfer, fluid flow, phase change and solidification that govern the development of microstructure, mechanical properties ...
Additive manufacturing (AM) encompasses a suite of technologies that build parts layer by layer from digital models, offering unparalleled design freedom, material efficiency and customisation. The ...
In the early 1980s, machine tool builders added milling spindles to turning machines, and Multi-Tasking was born. Within a decade, the concept quickly progressed to machines that not only combined ...
Formnext 2023 closed its doors with a strong showing that underscored the resilience and momentum of the additive ...
Over the past decade, 3-D printing has transformed from a hobbyist or prototyping tool into an industrial-grade production process, referred to as additive manufacturing. Today, additively ...
For metallic alloys in aerospace, machine learning can make the development of additive manufacturing (AM) processes both faster and cheaper. In collaboration with the University of Sheffield Advanced ...
USS Essex (LHD-2) is the centerpiece of large-scale additive manufacturing tests during Rim of the Pacific 2026 exercise, as ...
From field-deployable printing to faster procurement, discover 8 reasons additive manufacturing is becoming essential to ...
Fraunhofer Institute for Laser Technolog (ILT), Aachen, Germany, is tackling the challenge of 3D printing large components economically by using a new process called Hybrid AM that combines ...
Although additive manufacturing has already played an integral part in the creation of drones, there is a new trend ...