ASTM C1326-13(2018)
Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics

Standard No.
ASTM C1326-13(2018)
Release Date
2013
Published By
American Society for Testing and Materials (ASTM)
Status
Replace By
ASTM C1326-13(2023)
Latest
ASTM C1326-13(2023)
Scope

5.1 For advanced ceramics, Knoop indenters are used to create indentations. The surface projection of the long diagonal is measured with optical microscopes.

5.2 The Knoop indentation hardness is one of many properties that is used to characterize advanced ceramics. Attempts have been made to relate Knoop indentation hardness to other hardness scales, but no generally accepted methods are available. Such conversions are limited in scope and should be used with caution, except for special cases where a reliable basis for the conversion has been obtained by comparison tests.

5.3 For advanced ceramics, the Knoop indentation is often preferred to the Vickers indentation since the Knoop long diagonal length is 2.8 times longer than the Vickers diagonal for the same force, and cracking is much less of a problem (1).5 On the other hand, the long slender tip of the Knoop indentation is more difficult to precisely discern, especially in materials with low contrast. The indentation forces chosen in this test method are designed to produce indentations as large as may be possible with conventional microhardness equipment, yet not so large as to cause cracking.

5.4 The Knoop indentation is shallower than Vickers indentations made at the same force. Knoop indents may be useful in evaluating coating hardnesses.

5.5 Knoop hardness is calculated from the ratio of the applied force divided by the projected indentation area on the specimen surface. It is assumed that the elastic springback of the narrow diagonal is negligible. (Vickers indenters are also used to measure hardness, but Vickers hardness is calculated from the ratio of applied force to the area of contact of the four faces of the undeformed indenter.)

5.6 A full hardness characterization includes measurements over a broad range of indentation forces. Knoop hardness of ceramics usually decreases with increasing indentation size or indentation force such as that shown in Fig. 1.6 The trend is known as the indentation size effect (ISE). Hardness approaches a plateau constant hardness at sufficiently large indentation size or forces (loads). The test forces that are needed to achieve a constant hardness vary with the ceramic. The test force specified in this standard is intended to be sufficiently large that hardness is either close to or on the plateau, but not so large as to introduce excessive cracking. A comprehensive characterization of the ISE is recommended but is beyond the scope of this test method which measures hardness at a single, designated force.

FIG. 1 A Typical Indentation Size Effect (ISE) Curve for a Ceramic (The data shown are for NIST SRM 2830 silicon nitride)

A Typical Indentation Size Effect (ISE) Curve for axA; Ceramic (The data shown are for NIST SRM 2830 silicon nitride)A Typical Inden <div c......</dd> </dl> <!-- refrenced document --> <h2 class='h4'>ASTM C1326-13(2018) Referenced Document</h2> <ul> <li><a href='/1565810656.html' target=_blank>ASTM C730</a> Standard Test Method for Knoop Indentation Hardness of Glass</li><li><a href='/1467084496.html' target=_blank>ASTM C849</a> Standard Test Method for Knoop Indentation Hardness of Ceramic Whitewares</li><li><a href='/5714537.html' target=_blank>ASTM E177</a> Standard Practice for Use of the Terms Precision and Bias in ASTM Test Methods</li><li><a href='/5733905.html' target=_blank>ASTM E384</a> Standard Test Method for Microindentation Hardness of Materials</li><li><a href='/5720524.html' target=_blank>ASTM E4</a> Standard Practices for Force Verification of Testing Machines</li><li><a href='/5724525.html' target=_blank>ASTM E691</a> Standard Practice for Conducting an Interlaboratory Study to Determine the Precision of a Test Method</li><li><a href='/1272177230.html' target=_blank>IEEE/ASTM SI 10</a> American National Standard for Metric Practice</li><li><a href='/9030.html' target=_blank>ISO 9385</a> Glass and glass-ceramics; Knoop hardness test</li> </ul> <!--/refrenced document --> <!--History --> <h2 class='h4'>ASTM C1326-13(2018) history</h2><ul><li><span class='label label-default'>2023</span> <a href='/1950320234.html' target=_blank>ASTM C1326-13(2023)</a> Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics</li><li><span class='label label-default'>2013</span> <a href='/7839897.html' target=_blank>ASTM C1326-13(2018)</a> Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics</li><li><span class='label label-default'>2013</span> <a href='/6786252.html' target=_blank>ASTM C1326-13</a> Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics</li><li><span class='label label-default'>2008</span> <a href='/5791695.html' target=_blank>ASTM C1326-08e1</a> Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics</li><li><span class='label label-default'>2008</span> <a href='/5791710.html' target=_blank>ASTM C1326-08</a> Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics</li><li><span class='label label-default'>2003</span> <a href='/5716384.html' target=_blank>ASTM C1326-03</a> Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics</li><li><span class='label label-default'>1999</span> <a href='/5731121.html' target=_blank>ASTM C1326-99</a> Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics</li></ul> <!--History --> </div> <div class='col-md-3'> <img class='' width=100% src='/jpg/97/7839897.jpg' alt='Standard Test Method for Knoop Indentation Hardness of Advanced Ceramics'> </div> </div> <div class='row' id='purchase'> </div> <br> <hr> </div> <br> <div class='container small'> <p class='text-center'> Copyright ©2024 All Rights Reserved<br> <br> </p> </div> <script> var is_china_std = false; var id =