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Total Visits

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An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites411

Total Visits Per Month

November 2022December 2022
An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites155
January 2023February 2023March 2023April 2023May 2023June 2023
An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites8109254
July 2023August 2023September 2023
An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites1062
January 2024February 2024March 2024April 2024May 2024June 2024
An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites924191321
July 2024August 2024September 2024October 2024November 2024December 2024
An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites126288139
January 2025February 2025March 2025April 2025May 2025June 2025
An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites1063982117
July 2025August 2025September 2025October 2025
An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites117126

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An integrated inverse numerical–experimental approach to determine the dynamic Mode-I interlaminar fracture toughness of fibre composites.pdf86

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United States206
Spain69
China37
Singapore24
Japan22
India9
Vietnam8
Ukraine6
Australia4
Argentina3

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San Mateo102
Vitoria-Gasteiz67
Boardman18
Shanghai16
Singapore15
Mumbai8
Ashburn6
Kyiv3
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Andover2