• 已选条件:
  • × Xin Wang
  • × Article
 全选  【符合条件的数据共:63条】

1 Cracking Tendency Prediction of High-Performance Cementitious Materials [期刊论文]

Advances in Condensed Matter Physics,2014年

Xin Wang, Zhaohui Chen, Ke Chen, Hui Hu, Ke Chen

LicenseType:CC BY | 英文

预览  |  原文链接  |  全文  [ 浏览:4 下载:2  ]    

2 Cracking Tendency Prediction of High-Performance Cementitious Materials [期刊论文]

Advances in Condensed Matter Physics,2014年

Xin Wang, Zhaohui Chen, Ke Chen, Hui Hu, Ke Chen

LicenseType:CC BY | 英文

预览  |  原文链接  |  全文  [ 浏览:1 下载:1  ]    

3 Surface Crystallization in Mg-Based Bulk Metallic Glass during Copper Mold Casting [期刊论文]

Advances in Materials Science and Engineering,2014年

Xin Wang

LicenseType:CC BY | 英文

预览  |  原文链接  |  全文  [ 浏览:4 下载:0  ]    

4 Surface Crystallization in Mg-Based Bulk Metallic Glass during Copper Mold Casting [期刊论文]

Advances in Materials Science and Engineering,2014年

Xin Wang

LicenseType:CC BY | 英文

预览  |  原文链接  |  全文  [ 浏览:3 下载:0  ]    

5 Preparation and Mechanical Properties of Continuous Carbon Nanotube Networks Modified Cf/SiC Composite [期刊论文]

Advances in Materials Science and Engineering,2015年

Anran Guo, Jiachen Liu, Xin Wang, Feng Hou, Lei Wang

LicenseType:CC BY | 英文

预览  |  原文链接  |  全文  [ 浏览:12 下载:15  ]    

6 Viscoelastic, ductile and repairable carbon nanotube films formed with CNT/PEI double networks containing branched polyethylenimine [期刊论文]

NPG Asia Materials,2023年

Qingwen Li, Xin Zhang, Yongyi Zhang, Jingna Zhao, Jingyun Zou, Xiaohua Zhang, Xin Wang

LicenseType:CC BY |

预览  |  原文链接  |  全文  [ 浏览:0 下载:0  ]    

Manipulating nanostructure assemblies is important in using them as structural and functional materials. Carbon nanotubes (CNTs) lack the ability to reconstruct their entangled network. In this work, we report a strategy with which to realize efficient manipulation of CNT networks by forming double networks with branched polyethylenimine (PEI). The double network was highly viscoelastic and ductile and enabled efficient film stretching or creeping for CNT alignment, which dramatically improved the mechanical strength of the CNT films. Due to the viscous drag from the polymer network, the CNTs showed enhanced movability in reconstructing new networks, which made the film repairable. The repairability resulted from the branched polymeric structure. This double-networking strategy provides a new way to manipulate CNT assemblies for high-performance applications.