Statistics for Inertia-induced breakup of highly viscous drops subjected to simple shear

Total visits

views
Inertia-induced breakup of highly viscous drops subjected to simple shear 603

Total visits per month

views
June 2024 0
July 2024 0
August 2024 0
September 2024 0
October 2024 0
November 2024 0
December 2024 0

File Visits

views
1.1564825.pdf 673

Top country views

views
United States 471
France 42
Germany 35
China 18
United Kingdom 10
Finland 4
Italy 3
Ireland 2
South Korea 2
Sweden 2
Brazil 1
Canada 1
Hong Kong SAR China 1
India 1
Malaysia 1
Poland 1

Top city views

views
Ashburn 241
Reston 159
Blacksburg 5
Southend 5
Beijing 4
Shenzhen 4
Woodbridge 4
Zhengzhou 4
Balingen 3
Boardman 3
Brooklyn 3
Karlsruhe 3
Los Angeles 3
Castro Valley 2
Dublin 2
Minneapolis 2
Seattle 2
South El Monte 2
Andover 1
Berlin 1
Birmingham 1
Chandler 1
Chicago 1
Daejeon 1
Des Moines 1
Edison 1
Front Royal 1
Heppenheim an der Bergstrasse 1
Houston 1
Ludwigshafen am Rhein 1
Ma'anshan 1
Milan 1
Mimet 1
Mumbai 1
Nanjing 1
New Orleans 1
New York 1
Old Bridge 1
Overland Park 1
Petaling Jaya 1
Portland 1
Putian 1
Schaenitz 1
Secaucus 1
Shenyang 1
São Paulo 1
Warsaw 1
Washington 1
Xinxiang 1
Youngstown 1