ISO 15310:1999
ISO 15310:1999 Fibre-reinforced plastic composites – Determination of the in-plane shear modulus by the plate twist method
CDN $115.00
Description
1.1 This International Standard specifies a method for determining the in-plane shear modulus (G12) of fibrereinforced
plastic composites using a standard plate specimen. When applied to isotropic materials, the shear
modulus measured is independent of direction.
1.2 The method is used to determine the shear modulus of the test specimens but not to determine the shear
strength. It applies to a plate supported on two points on one diagonal and loaded on the other diagonal by the
simultaneous movement of two loading points attached to a cross-beam.
1.3 The method is suitable for use with fibre-reinforced plastic composites with both thermoset and thermoplastic
matrices.
Due to the shear deformation being applied under flexural conditions, for laminated materials with different fibre
formats and/or different orientations, the layers of material must be well distributed across the section so that it is
approximately “homogeneous” in the through-thickness direction.
The principal material axes, if present, must be orientated normal to the plate edges (see 3.8).
NOTE This method can be applied to unreinforced polymers and other materials (e.g. metals, ceramics and metal- or
ceramic-matrix composites).
For material fabricated using unidirectional plies, the shear modulus obtained using a multidirectional specimen
(i.e. 0°/90°/_ 45°) is not the same as that obtained for unidirectional or cross-ply (0°/90°) material.
1.4 The method is performed using specimens which may be moulded to the chosen dimensions, machined from
test plates or machined from flat areas of products.
1.5 The method specifies preferred dimensions for the specimen. Tests which are carried out on specimens of
other dimensions, or on specimens which are prepared under different conditions, may produce results which are
not comparable. Other factors, such as the speed of testing and the conditioning of the specimens, can influence
the results. Consequently, when comparative data are required, these factors must be carefully controlled and
recorded.
NOTE The stress-strain response in shear is very non-linear at higher strain levels. This test method determines the
modulus within a low strain region and is not applicable to higher strains.
Edition
1
Published Date
1999-12-16
Status
PUBLISHED
Pages
11
Language
English
Format
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Abstract
1.1 This International Standard specifies a method for determining the in-plane shear modulus (G12) of fibrereinforced
plastic composites using a standard plate specimen. When applied to isotropic materials, the shear
modulus measured is independent of direction.
1.2 The method is used to determine the shear modulus of the test specimens but not to determine the shear
strength. It applies to a plate supported on two points on one diagonal and loaded on the other diagonal by the
simultaneous movement of two loading points attached to a cross-beam.
1.3 The method is suitable for use with fibre-reinforced plastic composites with both thermoset and thermoplastic
matrices.
Due to the shear deformation being applied under flexural conditions, for laminated materials with different fibre
formats and/or different orientations, the layers of material must be well distributed across the section so that it is
approximately "homogeneous" in the through-thickness direction.
The principal material axes, if present, must be orientated normal to the plate edges (see 3.8).
NOTE This method can be applied to unreinforced polymers and other materials (e.g. metals, ceramics and metal- or
ceramic-matrix composites).
For material fabricated using unidirectional plies, the shear modulus obtained using a multidirectional specimen
(i.e. 0°/90°/_ 45°) is not the same as that obtained for unidirectional or cross-ply (0°/90°) material.
1.4 The method is performed using specimens which may be moulded to the chosen dimensions, machined from
test plates or machined from flat areas of products.
1.5 The method specifies preferred dimensions for the specimen. Tests which are carried out on specimens of
other dimensions, or on specimens which are prepared under different conditions, may produce results which are
not comparable. Other factors, such as the speed of testing and the conditioning of the specimens, can influence
the results. Consequently, when comparative data are required, these factors must be carefully controlled and
recorded.
NOTE The stress-strain response in shear is very non-linear at higher strain levels. This test method determines the
modulus within a low strain region and is not applicable to higher strains.
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