BS ISO 12817:2013
$142.49
Fibre-reinforced plastic composites. Determination of open-hole compression strength
| Published By | Publication Date | Number of Pages |
| BSI | 2013 | 28 |
This International Standard specifies the test method to determine the open-hole compressive strength of laminated fibre-reinforced plastic composites. The laminate is intended to be a balanced and symmetrical lay-up or be otherwise homogeneous through the thickness. This International Standard applies to all textile diameter fibre types (carbon, glass, aramids, etc.) and matrices (e.g. thermoset, thermoplastic) that meet the requirements of this International Standard.
This International Standard includes three methods:
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method 1 (short specimen with support fixture);
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method 2 (short specimen without support fixture);
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method 3 (long specimen with support fixture as in ASTM D6484/D6484M-09, methods A and B).
Method 1 employs an L-shaped base fixture and two end fixtures. These end fixtures are compressed between the platens of the test machine.
Method 2 employs end supports similar to the fixtures given in C.1 of ISO 14126:1999. Method 2 is useful for cyclic loading conditions test, including under fully or partly reversed loading conditions when the specimen is clamped by hydraulic grips without support fixtures
Method 3 has two types of loading methods, i.e. 3A and 3B. In method 3A, the specimen is placed within a stabilization fixture, which is then clamped by hydraulic grips. In method 3B, the specimen is placed within a stabilization fixture and then end-loaded by platens. Full details of test methods 3A and 3B are given in ASTM D6484/D6484M-09, procedure A and procedure B, respectively.
NOTE Specimen configurations and force introduction varies for the three methods covered within this International Standard. Results obtained using methods 1, 2 and 3 might not be equivalent for all laminates in all environments.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 6 | Foreword |
| 7 | Introduction |
| 9 | Section sec_1 Section sec_2 1 Scope 2 Normative references |
| 10 | Section sec_3 Section sec_4 3 Terms and definitions 4 Principle |
| 11 | Table tab_a Figure fig_1 Section sec_5 Section sec_5.1 Section sec_5.1.1 Section sec_5.1.2 Section sec_5.1.3 Section sec_5.1.4 Section sec_5.1.5 Section sec_5.1.6 5 Apparatus |
| 12 | Section sec_5.2 Table tab_b Figure fig_2 |
| 13 | Table tab_c Figure fig_3 |
| 14 | Table tab_d Figure fig_4 Table tab_e Figure fig_5 |
| 15 | Table tab_f Figure fig_6 |
| 16 | Table tab_g Figure fig_7 Section sec_5.3 |
| 17 | Section sec_6 Section sec_6.1 Table tab_1 Section sec_6.2 6 Test specimens 6.1 Shape and dimensions 6.2 Alternative specimen |
| 18 | Figure fig_8 |
| 19 | Figure fig_9 Section sec_6.3 Section sec_6.4 Section sec_6.5 6.3 Preparation of test plates and specimens 6.4 Inspection of test specimens 6.5 Number of test specimens |
| 20 | Section sec_7 Section sec_8 Section sec_8.1 Section sec_8.2 Section sec_8.3 Section sec_8.3.1 Section sec_8.3.2 Section sec_8.3.3 Section sec_8.4 Section sec_8.5 Section sec_8.6 7 Conditioning 8 Procedure 8.1 Test atmosphere 8.2 Measurement of dimensions of the test specimens 8.3 Mounting of the test specimens 8.4 Test speed 8.5 Preliminary loading 8.6 Recording |
| 21 | Section sec_8.7 Figure fig_10 Section sec_9 Section sec_9.1 8.7 Failure mode 9 Calculation 9.1 Open-hole compressive strength |
| 22 | Section sec_9.2 Section sec_10 Table tab_2 9.2 Expression of results 10 Precision |
| 23 | Table tab_3 Table tab_4 Table tab_5 |
| 24 | Section sec_11 11 Test report |
| 25 | Reference ref_1 Reference ref_2 Reference ref_3 Reference ref_4 Reference ref_5 Reference ref_6 Reference ref_7 Reference ref_8 Reference ref_9 Reference ref_10 Reference ref_11 Bibliography |
