AAMI 80369 20 2015
$131.66
ANSI/AAMI/ISO 80369-20:2015. – Small-bore connectors for liquids and gases in healthcare applications – Part 20: Common test methods
Published By | Publication Date | Number of Pages |
AAMI | 2015 | 40 |
Specifies the TEST METHODS to support the functional requirements for SMALL-BORE CONNECTORS intended to be used for CONNECTIONS of MEDICAL DEVICES and related ACCESSORIES.
PDF Catalog
PDF Pages | PDF Title |
---|---|
1 | ANSI/AAMI/ISO 80369-20:2015, Small-bore connectors for liquids and gases in healthcare applications— Part 20: Common test methods |
2 | Objectives and uses of AAMI standards and recommended practices |
3 | Title page |
4 | Copyright information |
5 | Contents |
6 | Glossary of equivalent standards |
7 | Committee representation |
9 | Background of AAMI/ISO 80369-20:2015 |
10 | Foreword |
11 | Introduction |
13 | 1 *Scope 2 Normative references 3 Terms and definitions |
14 | 4 Test methods for small-bore connectors Table 1 — Test methods and corresponding Annex of this part of ISO 80369 |
15 | Annex A: Rationale and guidance A.1 General guidance A.2 Rationale for particular clauses and subclauses |
18 | Annex B: *Leakage by pressure decay test method B.1 Principle B.2 *Test conditions B.2.1 Test sample preconditioning B.2.2 Environmental test conditions B.3 Apparatus B.4 Procedure |
19 | B.5 Test report |
21 | Annex C: Falling drop positive-pressure liquid leakage test method C.1 Principle C.2 *Test conditions C.2.1 Test sample preconditioning C.2.2 Environmental test conditions C.3 Apparatus C.4 Procedure |
22 | C.5 Test report |
23 | Annex D: Subatmospheric-pressure air leakage test method D.1 Principle D.2 *Test conditions D.2.1 Test sample preconditioning D.2.2 Environmental test conditions D.3 Apparatus |
24 | D.4 Procedure |
25 | Figure D.1 — Example subatmospheric-pressure air leakage test apparatus D.5 Test report |
27 | Annex E: Stress cracking test method E.1 Principle E.2 *Test conditions E.2.1 Test sample preconditioning E.2.2 Environmental test conditions E.3 Apparatus E.4 Procedure |
28 | E.5 Test report |
29 | Annex F: Resistance to separation from axial load test method F.1 Principle F.2 * Test conditions F.2.1 Test sample preconditioning F.2.2 Environmental test conditions F.3 Apparatus F.4 Procedure |
30 | F.5 Test report |
31 | Annex G: Resistance to separation from unscrewing test method G.1 Principle G.2 *Test conditions G.2.1 Test sample preconditioning G.2.2 Environmental test conditions G.3 Apparatus G.4 Procedure |
32 | G.5 Test report |
33 | Annex H: Resistance to overriding test method H.1 Principle H.2 *Test conditions H.2.1 Test sample preconditioning H.2.2 Environmental test conditions H.3 Apparatus H.4 Procedure |
34 | H.5 Test report |
35 | Annex I: Disconnection by unscrewing test method I.1 Principle I.2 *Test conditions I.2.1 Test sample preconditioning I.2.2 Environmental test conditions I.3 Apparatus I.4 Procedure |
36 | I.5 Test report |
37 | Annex J: Modification of the test methods to generate variable data for statistical analysis J.1 Principle J.2 Test method variations J.2.1 Fluid leakage test by pressure decay test method J.2.2 Falling drop positive pressure liquid leakage test method J.2.3 Subatmospheric-pressure air leakage test method J.2.4 Resistance to separation from axial load test method J.2.5 Resistance to separation from unscrewing test method |
38 | J.2.6 Resistance to overriding test method J.2.7 Disconnection by unscrewing test method J.3 Statistical analysis of variable data J.3.1 Test for normality J.3.2 Tolerance limit calculation |
39 | Annex K: Terminology — alphabetized index of defined terms |
40 | Bibliography |