@article{bai_investigation_2020,
	title = {Investigation of droplet impact on inclined fabric based on {CMOS} imaging technology and {FSI} numerical method},
	volume = {71},
	issn = {12225347},
	url = {http://revistaindustriatextila.ro/images/2020/6/005%20SHUHUA%20BAI_Industria%20Textila%206_2020.pdf},
	doi = {10.35530/IT.071.06.1730},
	abstract = {In order to study the impact characteristics of droplet on inclined fabric, the relevant experiment was setup in this paper.The   process   of   a   single   droplet   (2.12   mm)   impacting   inclined   fabric   (45°)   was   captured   by   CMOS   (ComplementaryMetal-Oxide Semiconductor) imaging technology. It could be found that there was a second impact phenomenon duringspreading stage, which was very different from impacting horizontal fabric. Then a two-way coupling method was usedto   simulate   that   impacting   process.   The   numerical   results   were   basically   consistent   with   the   experimental   results.   Inaddition, the reaction force and vibration characteristics of fabric which couldn’t be collected by experiments were alsoobtained. Finally, the effect of inclination angle on impact characteristics was analyzed by numerical method. The biggerthe inclination angle was, the longer the stability time of droplet was, and the smaller the reaction force on fabric was.The change law conformed to the momentum theorem. The method and conclusions could provide some references forthe design of parachute system.},
	number = {06},
	urldate = {2020-12-31},
	journal = {Industria Textila},
	author = {Bai, Shuhua and Cheng, Han},
	month = dec,
	year = {2020},
	pages = {545--549},
}