BS ISO 3341:2000
$86.31
Textile glass. Yarns. Determination of breaking force and breaking elongation
| Published By | Publication Date | Number of Pages |
| BSI | 2000 | 14 |
1.1 This International Standard specifies a method for the determination of the tensile breaking force and elongation at break of glass yarns taken from packages.
1.2 The method is applicable to various types of glass yarn (single, folded, cabled, strands, structures without twist, rovings, etc.). It is basically intended for single, folded and cabled glass yarns having a diameter of less than 2 mm, or a linear density lower than 2 000 tex, taken from packages. Heavier yarns may be also tested providing the test conditions are acceptable to all interested parties.
1.3 The method is not applicable to glass yarns which, in equilibrium with the standard atmosphere and under a pre-tension of 5 mN/tex, are elongated by more than 0,5 %. Such yarns can be tested using a lower pre-tension (for example 2,5 mN/tex or 1 mN/tex), acceptable to all interested parties. This would occur mainly when dealing with staple-fibre yarns.
NOTE 1 Though the determination may be run on beamed yarn or on yarns taken from fabrics, the results must be considered as indicative only.
NOTE 2 This test method is primarily intended for material characterization and quality control. Fibre-to-fibre abrasion and other factors such as insufficiently uniform tension (catenary) will increase variability and generate low test values. This will consequently impede accurate correlation between performance of the yarns and end use applications. Extreme care should be taken in considering this method for specification purposes.
NOTE 3 Though this International Standard provides the possibility of determining the elongation at break, this practice is not recommended, however. Indeed, a correct assessment of the elongation will only be obtained using an extensometer; it will not be obtained by measuring the distance traversed by the moving clamp. On the other hand, experience shows that the use of an extensometer is quite delicate and often causes damage to the specimen.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 3 | Textile glass�— Yarns�— Determination of breaking force and breaking elongation |
| 5 | Contents Page |
| 6 | Foreword |
| 7 | Textile glass�— Yarns�— Determination of breaking force and breaking elongation 1��� Scope 1.1��� This International Standard 1.2��� The method is applicable to various types of glass yarn (single, folded, cabled, strands, … 1.3��� The method is not applicable to glass yarns which, in equilibrium with the standard atmosp… 2��� Normative references 3��� Terms and definitions |
| 8 | 4��� Principle 4.1��� The breaking force and the elongation at break are determined by elongating a specimen by … 4.2��� The value of the breaking force per unit linear density of the yarn, i.e. the breaking str… 5��� Apparatus 5.1��� Tensile-testing machine 5.1.1��� The method is designed for test machines with constant rate of elongation (CRE). If othe… 5.1.2��� The maximum error in the indicated force, at any point in the range in which the machine… 5.1.3��� The design of the clamps is critical to obtaining correct breaks and consistent results…. |
| 9 | 5.1.4��� The test machine shall be adjusted to give a constant rate of extension of 6��� Conditioning 7��� Specimens 7.1��� Number of specimens 7.2��� Selection of specimens |
| 11 | 8��� Procedure 8.1��� General 8.2��� Determination 8.2.1��� After conditioning as specified in clause 8.2.2��� If the test machine has a pre-tensioning capability, apply to the specimen a pre-tension of 8.2.3��� Set the moving clamp in motion. After the specimen breaks, record the breaking force and… 8.2.4��� Repeat the determination on the remaining specimens. 8.2.5��� Disregard any results obtained with specimens that slip in the jaws, or that break in th… 9��� Expression of results 9.1��� Breaking force 9.2��� Elongation at break 9.3��� Breaking strength |
| 12 | 10��� Precision |
| 13 | 11��� Test report |
