The important role of geometric imperfections on the decrease of the buckling load for thin-walled cylinders had been recognized already by the first authors investigating the theoretical approaches on this topic. However, there are currently no closed-form solutions to take imperfections into account already during the early design phases, forcing the analysts to use lower-bound methods to calculate the required knock-down factors (KDF). Lower-bound methods such as the empirical NASA SP-8007 guideline are commonly used in the aerospace and space industries, while the approaches based on the Reduced Stiffness Method (RSM) have been used mostly in the civil engineering field. Since 1970s a considerable number of experimental and numerical in...
The stability of shell structures has been an object of studies for more than a century. Thin walle...
Thin-walled unstiffened cylindrical composite shells are prone to buckling. The structural behavior ...
A knock-down factor is commonly used to take into account the obvious decline of the buckling load i...
This work presents a numerical investigation about the different methodologies to characterize the b...
Currently, imperfection sensitive shell structures prone to buckling are designed acco...
The worst geometric imperfection is a mathematical concept which should deliver in theory a lower bo...
Thin-walled cylindrical shells are susceptible to buckling failures caused by the axial compressive ...
Unstiffened cylindrical shells are very sensitive to geometric imperfections such as production-rela...
The need to take the imperfection sensitivity of thin-walled unstiffened cylinders into account duri...
A numerical investigation was conducted into a perturbation-based analysis approach for assessing th...
Thin-walled shell structures like circular cylindrical shells are prone to buckling. Imperfections, ...
Some of the knock-down factors applied in design of rocket launcher structures are based on design r...
Elastic boundary conditions play an important role in the buckling analysis of cylinders under compr...
Due to a lack of statistical data, unstiffened cylindrical lightweight structures are designed follo...
This paper encompasses the work from numerical model by investigating the compression response of CF...
The stability of shell structures has been an object of studies for more than a century. Thin walle...
Thin-walled unstiffened cylindrical composite shells are prone to buckling. The structural behavior ...
A knock-down factor is commonly used to take into account the obvious decline of the buckling load i...
This work presents a numerical investigation about the different methodologies to characterize the b...
Currently, imperfection sensitive shell structures prone to buckling are designed acco...
The worst geometric imperfection is a mathematical concept which should deliver in theory a lower bo...
Thin-walled cylindrical shells are susceptible to buckling failures caused by the axial compressive ...
Unstiffened cylindrical shells are very sensitive to geometric imperfections such as production-rela...
The need to take the imperfection sensitivity of thin-walled unstiffened cylinders into account duri...
A numerical investigation was conducted into a perturbation-based analysis approach for assessing th...
Thin-walled shell structures like circular cylindrical shells are prone to buckling. Imperfections, ...
Some of the knock-down factors applied in design of rocket launcher structures are based on design r...
Elastic boundary conditions play an important role in the buckling analysis of cylinders under compr...
Due to a lack of statistical data, unstiffened cylindrical lightweight structures are designed follo...
This paper encompasses the work from numerical model by investigating the compression response of CF...
The stability of shell structures has been an object of studies for more than a century. Thin walle...
Thin-walled unstiffened cylindrical composite shells are prone to buckling. The structural behavior ...
A knock-down factor is commonly used to take into account the obvious decline of the buckling load i...