软件部署
转化式学习
铅(地质)
钥匙(锁)
闪光灯(摄影)
计算机科学
系统工程
颠覆性技术
纳米技术
基石
订单(交换)
工程类
新兴技术
工业革命
敏捷软件开发
时间轴
生产(经济)
风险分析(工程)
制造工程
碳足迹
技术进化
作者
Xiaoxi Yuan,Chaohui Yan,Shaochen Zhang,Ye Yang,S. Z. Zhou,Peng Huang,Dong Xia
摘要
Abstract Flash Joule‐heating (FJH) technology emerges as a transformative advancement in electrothermal processing with minimal carbon footprint, which leverages high‐intensity electrical pulses to rapidly heat conductive materials to extreme temperatures (often exceeding 3000 K), inducing dramatic structural transformations through non‐equilibrium pathways, thus displaying feasibility across various application scenarios. Noteworthily, FJH technology has evolved from a laboratory practice to a cornerstone of sustainable materials engineering, witnessing ever‐growing researching interests. Thus, a holistic and timely summary of the recent progress and development of FJH technology is of crucial importance to deepen the understandings and update the remaining difficulties in each application that need to be resolved. While challenges still remain on inhibiting the scaled production upon the deployment of FJH, as such, this review proposes perspectives and strategies to help address key unresolved challenges ghosting FJH technology, in order to make the quick landing of FJH‐led industrial revolution and production.
科研通智能强力驱动
Strongly Powered by AbleSci AI