image: . A graphical summary showing: (a) used raw organic and inorganic precursors, their molar ratios in synthesis; (b) laser photopolymerization and high-temperature calcination technology; (c) ...
Explore IMTS 2026 and AI advancements at McCormick Place, featuring cutting-edge technologies and the EOS M4 Onyx ...
Manufacturers are adopting new technologies to increase build rates while maintaining the precision and quality required for ...
Engineers have succeeded in fabricating a nickel single crystal with only a very few crystalline defects by irradiating nickel powder with a large-radius, flat-top laser beam (i.e., a laser beam whose ...
Laser-based additive manufacturing encompasses techniques that fuse powdered or wire‐feedstock metals layer by layer using a high‐power laser. Precision control of laser power, scanning speed, ...
Compared with general additive manufacturing (AM) methods, Multi-material additive manufacturing (MMAM) enables a higher level of design freedom, such as integrating materials, structure and function ...
Additive Manufacturing (AM) is booming. According to a recent report from Persistence Market Research, the sector is currently on pace to grow by more than 22% this year and is expected to double in ...
Additive manufacturing (AM, also known as 3-D printing) allows us to create incredibly complex shapes, which would not be possible using traditional manufacturing techniques. However, objects created ...
Aerospace components have long been fabricated using traditional manufacturing methods such as forging. That method requires significant post processing. 3D printing offers new alternatives.
A new publication from Opto-Electronic Advances reviews laser additive manufacturing of Si/ZrO2 tunable crystalline phase 3D nanostructures. A route for laser nano-printing of 3D crystalline ...
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