obsess
发表于 2025-3-21 17:46:34
书目名称Self-Healing Nanotextured Vascular Engineering Materials影响因子(影响力)<br> http://figure.impactfactor.cn/if/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials影响因子(影响力)学科排名<br> http://figure.impactfactor.cn/ifr/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials网络公开度<br> http://figure.impactfactor.cn/at/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials网络公开度学科排名<br> http://figure.impactfactor.cn/atr/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials被引频次<br> http://figure.impactfactor.cn/tc/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials被引频次学科排名<br> http://figure.impactfactor.cn/tcr/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials年度引用<br> http://figure.impactfactor.cn/ii/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials年度引用学科排名<br> http://figure.impactfactor.cn/iir/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials读者反馈<br> http://figure.impactfactor.cn/5y/?ISSN=BK0864456<br><br> <br><br>书目名称Self-Healing Nanotextured Vascular Engineering Materials读者反馈学科排名<br> http://figure.impactfactor.cn/5yr/?ISSN=BK0864456<br><br> <br><br>
vibrant
发表于 2025-3-21 21:29:31
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毛细血管
发表于 2025-3-22 04:14:34
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文字
发表于 2025-3-22 08:39:05
Macroscopic Observations of Physicochemical Aspects of Self-Healing Phenomenaber (NF) mats in Sects. 3.1 and 3.2, respectively. The intact surfaces and NF mats serve as macroscopic models of self-healing engineering materials with vascular networks, where the healing agents have been released from the NFs in a damaged domain. The spreading of droplets on NF mats show signifi
BIPED
发表于 2025-3-22 12:33:30
Fabrication of Vascular Nanofiber Networks with Encapsulated Self-Healing Agents for Mechanical Recoectrospinning discussed in Sect. 4.1 and its variant of co-electrospinning discussed in Sect. 4.2; the latter is used to form core-shell nanofibers (NFs) that contain healing agents in their cores. Another variant of electrospinning used to form such NFs is the emulsion spinning, which is described
排名真古怪
发表于 2025-3-22 14:32:41
Self-Healing at Ply Surfaces: Adhesion, Cohesion, and Interfacial Toughening Evaluated Using Blisterealing materials and their effects on the adhesion and cohesion energies. In Sect. 8.3, double-cantilever beam and bending tests, applied for the mechanical characterization of self-healing materials, are discussed. Section 8.4 outlines the interfacial toughening by means of nanofibers (NFs) intende
领带
发表于 2025-3-22 17:18:44
Concluding Remarks and Future Perspectivesg agents (e.g., resin monomer and curing agent, or epoxy and hardener). This is beneficial for the following reasons: (i) uniformly distributed versus localized healing elements (as in the case of microcapsules containing healing agents), and (ii) nanoscale instead of microscale healing elements (as
生锈
发表于 2025-3-22 23:56:28
Self-Healing at Ply Surfaces: Adhesion, Cohesion, and Interfacial Toughening Evaluated Using Blister8.5 provides comprehensive data on mechanical recovery in self-healing vascular materials. In addition to the essentially two-dimensional self-healing materials discussed in Sects. 7.1, 7.2, 7.3 and 7.4 and 8.1, 8.2, 8.3, 8.4 and 8.5, the mechanical behaviors of their three-dimensional counterparts are explored in Sect. 8.6.
枪支
发表于 2025-3-23 04:50:52
Book 2019ealing materials as well as the.fundamental physicochemical phenomena accompanying self-healing. This book also addresses.the different fabrication methods used to form core–shell nanofiber mats. The fundamental.theoretical aspects of fracture mechanics are outlined. A brief theoretical description
协定
发表于 2025-3-23 07:55:31
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