|
 |
| On the cover: In recent years, driven by the new round of scientific and technological revolution coupled with carbon neutrality, the energy structure is undergoing unprecedented changes. Biomass energy can be obtained from abundant resources by a number of application ways, which is zero-carbon and has unique effect of carbon negative emission. Meanwhile, advanced conversion technologies, such as BECCS, pyrolysis, and biohydrogen, are also joining the way to make a better bioenergy. Clean products of biomass have been promoted to a prospective future. Combination of biomass energy development and advanced technology will realize a more flexible and imaginative use of biomass, contributing to a green, low-carbon and sustainable development. For a bright and recyclable future, we should improve the use of biomass energy and unlock its huge potential for energy conservation and carbon reduction. |
|
|
| Add comment (English only) |
|
|
|
|
|
| Position: Home > issue > May 15, 2023 Volume 4, Issue 3 |
|
|
|
| Breakthroughs in projection-enabled additive manufacturing: From novel strategies to cutting-edge applications |
Category: Commentary Download:  PDF  Figure  Endnote |
| Author: Yu-Qing Liu, Zheng Xiong, Yong-Lai Zhang, Hua Liu |
|
|
Development of PAM technologies
As one of the crucial technologies of additive manufacturing (AM), projection technology, which features fast printing speed, high molding accuracy, and low cost, exhibits great potential in cutting-edge applications. The basic principle of projection-enabled AM (PAM) is the stacking of layer-wise structures, in which the dynamic mask pattern is projected onto the surface of the liquid photosensitive resin, triggering polymerization in a specific area to accomplish single-layer printing. This facilitates the layer-wise manufacture of complex three-dimensional (3D) structures.
|
|
|
|
TheInnovation´´ÐÂ
TheInnovation´´ÐÂ
The_Innovation
office@the-innovation.org
Official£º