Ling Han
Xi'an Polytechnic University
6 Papers
Ling Han is an academic researcher from Xi'an Polytechnic University. The author has contributed to research in topics: Fiber & Modal analysis. The author has an hindex of 2, co-authored 4 publications.
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Papers
Modal analysis of 3D needled waste cotton fiber/epoxy composites with experimental and numerical methods:
Lu Linlin,Wei Fan,Meng Xue,Tao Liu,Tao Liu,Ling Han,Zhang Tao,Dong Jingjing,Linjia Yuan,Tian Huixia +9 more
TL;DR: In this article, small-size microstructure models of the 3D needled waste cotton fiber/epoxy composites (3DNWCFCs) were brought out to predict their key vibration parameters (natural frequency and mode shapes)
30
Dual-functional SFP/PAN based nano drug release system for treatment and nutrients:
TL;DR: In vitro testing demonstrated that nanofibers could supply more nutrients with increasing SFP in shell solutions; however, the ability to maintain controlled release was reduced and it was found that the nanofiber membrane had the best controlled drug release capability for a PAN-to-SFP mass ratio of 95:5.
4
Patent
Manufacture method for easy-to-lay, drought-resistant and slope-protecting vegetation blankets
Ling Han,Ma Yingbo,Fan Wei,Meng Xue,Qian Manyu +4 more
- 11 Feb 2020
TL;DR: In this paper, a method for the manufacture of drought-resistant and slope-protecting vegetation blanket is described. But the method is not suitable for the use of the ground cover.
Production of three-dimensional fiber needle-punching composites from denim waste for utilization as furniture materials
Meng Xue,Wei Fan,Wan Adibah Wan Mahari,Shengbo Ge,Changlei Xia,Fan Wu,Ling Han,Shujuan Wang,Minglong Zhang,Zhe Hu,Nyuk Ling Ma,Quyet Van Le,Su Shiung Lam,Su Shiung Lam +13 more
TL;DR: In this article, the impact exerted by fiber volume fraction and needled density on the mechanical performance of 3D denim needle-punching composites was studied. And the optimum mechanical properties of the 3DDWNCs were obtained at 27.16% of fiber volume and 373 needles/cm2 of needled densities.
In-situ polarized coaxial PVDF/PL nanofiber filtration membrane with high efficiency, low resistance and antimicrobial properties
Ling Han,Xinyi Diao,Qi Jia,Wanqi Ma,Qi Wang +4 more
TL;DR: Coaxial electrospinning technology with traditional Chinese medicine Physalis alkekengi Linn as the core layer antibacterial material and polyvinylidene fluoride/polyacrylonitrile mixed solution as the shell layer material achieves long-lasting antibacterial, high-efficiency, and low-resistance air filtration and protection.