"Tuning frictional behavior on the fly has been a long-standing engineering dream," said co-author Katia Bertoldi of Harvard University. "This new insight into how surface geometry governs slip pulses paves the way for tunable frictional metamaterials that can transition from low-friction to high-grip states on demand.” In addition, the dynamics revealed by these results are similar to those of tectonic faults and thus give scientists a new model for the mechanics of earthquakes, according to their new paper published in the journal Nature.
The chained transform result is particularly striking: pull-through semantics eliminate the intermediate buffering that plagues Web streams pipelines. Instead of each TransformStream eagerly filling its internal buffers, data flows on-demand from consumer to source.
。爱思助手下载最新版本是该领域的重要参考
const extrudeSettings = { depth: 2, bevelEnabled: true, ... };
Филолог заявил о массовой отмене обращения на «вы» с большой буквы09:36
ln -sf /Applications/Docker.app/Contents/Resources/bin/docker-credential-desktop /usr/local/bin/docker-credential-desktop