The balanced biaxial tensile loading test on hard foams is significant for the fitting of extended strength hypotheses [1]. This test can be easily realized with a conventional tensile testing machine [2], e. g. ZWICK / Z020. This simple loading scheme requires a special specimen: a cruciform specimen or an octuple notched waisted disc. The minimum thickness of the specimen in the test area should be larger than s = 8 mm to treat the cellular structure of the material as quasi-homogeneous. The diameter of the test area is set equal to d = 5 s. This dimension is sufficient for the recording of the displacements with a CCDcamera during the tests. The regions at the boundary of the test area (Saint-Venant distance) must be excluded from the ev...
For modern applications of hard foams an appropriate description of the limit behavior under differe...
Main desired features of biaxial tests are: uniformity of stresses and strains; high strain levels i...
Background Biaxial tests are important for complex mechanical behaviours of materials such as rubber...
Parts made of hard foams have found wide application in lightweight constructions. The design of the...
A new method for mechanically testing hard foams complements known test procedures. The test results...
This paper presents an investigation of different cruciform specimen designs for the characterizatio...
This proceedings paper presents the investigation of different cruciform specimen designs for the ch...
Biological tissues are subjected to complex loading states in vivo and in order to define constituti...
The paper contributes to the global research of the best shape of cruciform samples for biaxial tens...
The simple circular notched specimen was originally proposed by Arcan to characterize the elastic pr...
For modern applications of hard foams an appropriate description of the limit behavior under differe...
The focus of this study was to improve characterization of hyperelastic materials in biaxial tension...
Growing use of solid foams as core material in load bearing composite sandwich structures requires t...
For the standard ISO 16842 cruciform test specimen, stresses obtained from the gauge area are far be...
A design study was undertaken to develop specimen designs for testing advanced aeropropulsion materi...
For modern applications of hard foams an appropriate description of the limit behavior under differe...
Main desired features of biaxial tests are: uniformity of stresses and strains; high strain levels i...
Background Biaxial tests are important for complex mechanical behaviours of materials such as rubber...
Parts made of hard foams have found wide application in lightweight constructions. The design of the...
A new method for mechanically testing hard foams complements known test procedures. The test results...
This paper presents an investigation of different cruciform specimen designs for the characterizatio...
This proceedings paper presents the investigation of different cruciform specimen designs for the ch...
Biological tissues are subjected to complex loading states in vivo and in order to define constituti...
The paper contributes to the global research of the best shape of cruciform samples for biaxial tens...
The simple circular notched specimen was originally proposed by Arcan to characterize the elastic pr...
For modern applications of hard foams an appropriate description of the limit behavior under differe...
The focus of this study was to improve characterization of hyperelastic materials in biaxial tension...
Growing use of solid foams as core material in load bearing composite sandwich structures requires t...
For the standard ISO 16842 cruciform test specimen, stresses obtained from the gauge area are far be...
A design study was undertaken to develop specimen designs for testing advanced aeropropulsion materi...
For modern applications of hard foams an appropriate description of the limit behavior under differe...
Main desired features of biaxial tests are: uniformity of stresses and strains; high strain levels i...
Background Biaxial tests are important for complex mechanical behaviours of materials such as rubber...