Add to ORKGABSTRACT: The applicability of our developed accelerated testing methodology (ATM) based on the time–temperature superposition principle (TTSP) and others for the prediction of long-term fatigue life of polymer matrix composites is performed experimentally and theoretically. A formulation method of master curves of creep and fatigue strengths for polymer matrix composites is introduced based on ATM. The master curves of creep and fatigue strengths for the typical three directions of unidirectional CFRP, that is the longitudinal tensile and compressive loadings and the transverse tensile loading, are formulated using the data measured based on ATM
Pure and fiber-reinforced thermoplastic polymers are prone to failure under creep loading due to hig...
Pure and fiber-reinforced thermoplastic polymers are prone to failure under creep loading due to hig...
Service life estimation of polymer materials by accelerated aging is an indispensable tool which pro...
ABSTRACT: A prediction method for the fatigue strength of polymer composites under arbitrary frequen...
The paper addresses the determination of the effects of time and temperature on strength and lifetim...
A rational approach to the problem of accelerated testing for material characterization of advanced ...
Lack of long term performance data inhibits the widespread use of composites. The long-term response...
Lack of long term performance data inhibits the widespread use of composites. The long-term response...
This project is focused on accelerating fatigue tests and constant strain rate (CSR) creep tests for...
ABSTRACT: This paper deals with the prediction of long-term strength of CFRP structure components ba...
This project is focused on accelerating fatigue tests and constant strain rate (CSR) creep tests for...
The ability to accurately predict the properties of carbon fibre reinforced polymer (CFRP) composite...
The ability to accurately predict the properties of carbon fibre reinforced polymer (CFRP) composite...
ABSTRACT: Statistical formulations of the master curves for the constant strain rate (CSR), creep an...
Pure and fiber-reinforced thermoplastic polymers are prone to failure under creep loading due to hig...
Pure and fiber-reinforced thermoplastic polymers are prone to failure under creep loading due to hig...
Pure and fiber-reinforced thermoplastic polymers are prone to failure under creep loading due to hig...
Service life estimation of polymer materials by accelerated aging is an indispensable tool which pro...
ABSTRACT: A prediction method for the fatigue strength of polymer composites under arbitrary frequen...
The paper addresses the determination of the effects of time and temperature on strength and lifetim...
A rational approach to the problem of accelerated testing for material characterization of advanced ...
Lack of long term performance data inhibits the widespread use of composites. The long-term response...
Lack of long term performance data inhibits the widespread use of composites. The long-term response...
This project is focused on accelerating fatigue tests and constant strain rate (CSR) creep tests for...
ABSTRACT: This paper deals with the prediction of long-term strength of CFRP structure components ba...
This project is focused on accelerating fatigue tests and constant strain rate (CSR) creep tests for...
The ability to accurately predict the properties of carbon fibre reinforced polymer (CFRP) composite...
The ability to accurately predict the properties of carbon fibre reinforced polymer (CFRP) composite...
ABSTRACT: Statistical formulations of the master curves for the constant strain rate (CSR), creep an...
Pure and fiber-reinforced thermoplastic polymers are prone to failure under creep loading due to hig...
Pure and fiber-reinforced thermoplastic polymers are prone to failure under creep loading due to hig...
Pure and fiber-reinforced thermoplastic polymers are prone to failure under creep loading due to hig...
Service life estimation of polymer materials by accelerated aging is an indispensable tool which pro...