https://en.wiki.polymerservice-merseburg.de/index.php?action=history&feed=atom&title=Electronic_InstrumentationElectronic Instrumentation - Revision history2026-04-22T21:07:31ZRevision history for this page on the wikiMediaWiki 1.43.1https://en.wiki.polymerservice-merseburg.de/index.php?title=Electronic_Instrumentation&diff=282&oldid=prevOluschinski: Created page with "{{Language_sel|LANG=ger|ARTIKEL=Instrumentierung}} {{PSM_Infobox}} <span style="font-size:1.2em;font-weight:bold;">Instrumentation</span> __FORCETOC__ ==Registration of load (force) and deflection (displacement)== Instrumentation refers to the equipping of frequently non-instrumented testing equipment in materials testing, such as pendulum impact testers and hardness testing systems, with load (force) an..."2025-12-01T10:22:31Z<p>Created page with "{{Language_sel|LANG=ger|ARTIKEL=Instrumentierung}} {{PSM_Infobox}} <span style="font-size:1.2em;font-weight:bold;">Instrumentation</span> __FORCETOC__ ==Registration of load (force) and deflection (displacement)== Instrumentation refers to the equipping of frequently non-instrumented testing equipment in <a href="/index.php/Materials_Testing" title="Materials Testing"> materials testing</a>, such as <a href="/index.php?title=Impact_Loading_Pendulum_Impact_Tester&action=edit&redlink=1" class="new" title="Impact Loading Pendulum Impact Tester (page does not exist)">pendulum impact testers</a> and hardness testing systems, with load (force) an..."</p>
<p><b>New page</b></p><div>{{Language_sel|LANG=ger|ARTIKEL=Instrumentierung}}<br />
{{PSM_Infobox}}<br />
<span style="font-size:1.2em;font-weight:bold;">Instrumentation</span><br />
__FORCETOC__<br />
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==Registration of load (force) and deflection (displacement)==<br />
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Instrumentation refers to the equipping of frequently non-instrumented testing equipment in [[Materials Testing | materials testing]], such as [[Impact Loading Pendulum Impact Tester|pendulum impact testers]] and hardness testing systems, with load (force) and deflection (displacement) measurement technology (see: [[Piezoelectric Force Transducer|piezoelectric load cells]], [[Strain Gauge | strain gauges]]). The aim is to record the force and deformation behaviour (penetration depth, deflection, elongation) during mechanical loading of a [[Specimen | test specimen]], whereby a benefit in terms of information can be expected compared to conventional methods.<br />
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==Definition of terms==<br />
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In the literature, the term ‘instrumented’ is often replaced by ‘registered’, e.g. ‘registering hardness test’ or ‘registering notched Charpy impact test’. Sometimes the term ‘sensor-based test methods’ is used with reference to the measurement of force and displacement components.<br />
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==See also==<br />
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* [[Instrumented Hardness Testing – Method & Material Parameters | Instrumented hardness testing – Method & Material parameters]]<br />
* [[Instrumented Charpy Impact Test | Instrumented Charpy impact test]] (ICIT)<br />
* [[Instrumented Adhesion Test | Instrumented adhesion test]]<br />
* [[Instrumented Scratch Testing | Instrumented scratch testing]]<br />
* [[Instrumented Puncture Impact Test|Instrumented puncture impact test]]<br />
* [[MPK-Procedure MPK-ITIT]]<br />
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'''References'''<br />
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''Instrumented hardness testing (own works)''<br />
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* Fröhlich, F., Grau, P., [[Grellmann, Wolfgang|Grellmann, W.]]: Performance and Analysis of Recording Microhardness Tests. Phys. stat. sol. (a) 42 (1977) 79–89 DOI: https://doi.org/10.1002/pssa.2210420106<br />
* [https://www.researchgate.net/profile/Wolfgang-Grellmann Grellmann, W.]: Ermittlung der Härte von Gläsern und Keramiken. Dissertation, Martin-Luther-Universität Halle-Wittenberg (1978) (Content as pdf)<br />
* May, M., Fröhlich, F. Grau, P., [https://de.wikipedia.org/wiki/Wolfgang_Grellmann Grellmann, W.]: Anwendung der Methode der registrierenden Mikrohärteprüfung für die Ermittlung von mechanischen Materialkennwerten an Polymerwerkstoffen. Plaste und Kautschuk 30 (1983) H. 3, pp. 149–153 Download as pdf<br />
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''Instrumented Chrapy impact test (own Works)''<br />
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* Hoffmann, H., [[Grellmann, Wolfgang|Grellmann, W.]]: Instrumentierung des Kerbschlagbiegeversuches und Bestimmung der dynamischen Bruchzähigkeit hochpolymerer Werkstoffe. Wiss. Zeitschr. der Technischen Hochschule Leuna-Merseburg 24 (1982), H. 1, pp. 50–64<br />
* [https://www.researchgate.net/profile/Wolfgang-Grellmann Grellmann, W.]: Probleme und Ergebnisse der instrumentierten Kerbschlagbiegeprüfung von Polymerwerkstoffen. Institut für Mechanik, Berlin und Karl-Marx-Stadt, Fracture Mechanics, Micromechanics and Coupled Fields (FMC) Series (1982) No. 3, pp. 102–111<br />
* Grellmann, W.: Probleme der Ermittlung von Bruch und Trägheitskräften bei der Bestimmung dynamischer Bruchzähigkeiten von Polymerwerkstoffen. Institut für Mechanik, Berlin und Karl-Marx-Stadt, FMC Series (1982) No. 3, pp. 142–151<br />
* Grellmann, W., Hoffmann, H., Nowak, G., Kießling, D., Rößler, K.: Schlagbolzen für Schlag-, Pendelschlag- und Fallwerke. DD 215 171 (20.5.1983)<br />
* May, M., Hoffmann, H., Grellmann, W.: Anwendung der dynamischen Bruchzähigkeit zur Beurteilung der Zähigkeitseigenschaften. Plaste und Kautschuk 31 (1984) H. 1, pp. 26–30 Download als pdf<br />
* Grellmann, W.: Beurteilung der Zähigkeitseigenschaften von Polymerwerkstoffen durch bruchmechanische Kennwerte. Habilitation (1986), Technische Hochschule Merseburg, Wiss. Zeitschrift TH Merseburg 28 (1986), H. 6, pp. 787–788 (Content, summary)<br />
* Hoffmann, H., Grellmann, W., Jungbluth, M., Wille, U.: Temperiereinrichtung für eine Prüfanordnung zur automatisierten Kerbschlagbiegeprüfung von temperierten Probekörpern. DD 261720 A 3 (21.11.1985)<br />
* Grellmann, W., Hoffmann, H., Kaßner, H., Kießling, D., Nowak, G.: Messwertübertragungssystem für instrumentierte Schlag-, Pendelschlag- und Fallwerke. DD 247 281 (6.3.1986)<br />
* Grellmann, W., Hoffmann, H., Kaßner, H., Kießling, D., Nowak, G.: Wegmeßeinrichtung für Schlagwerke. DD 250 179 (19.6.1986)<br />
* Hoffmann, H., Grellmann, W.: Zur Bestimmung und Bewertung von Kennwerten für die Beurteilung der Zähigkeitseigenschaften von Polymerwerkstoffen bei schlag- und stoßartiger Beanspruchung. Technische Mechanik 8 (1987), H. 2, pp. 48–51<br />
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''Instrumented tensile test (own works)''<br />
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* [https://www.researchgate.net/profile/Katrin-Reincke Reincke, K.], Grellmann, W.: Verfahren zur Charakterisierung der mechanischen Eigenschaften von Folien und Elastomeren. Kautschuk Gummi Kunststoffe (2010) 63, pp. 203–208 Download als pdf<br />
* Grellmann, W., [[Reincke, Katrin|Reincke, K.]]: Quality Improvement of Elastomers. Use of Instrumented Notched Tensile-Impact Testing for Assessment of Toughness. Materialprüfung 46 (2004) 4, pp. 168–175 DOI: http://dx.doi.org/10.3139/120.100575<br />
* Reincke, K., Grellmann, W.: Mechanical and Fracture Mechanics Properties of Elastomeric Compositions with Reinforcing Components. In: Galimberti, M. (Ed.): Rubber-Clay Nanocomposites: Science, Technology and Applications. John Wiley & Sons, 1st Edition 2011, pp. 303–342<br />
* Grellmann, W., Reincke, K.: Technical Material Diagnostics – Fracture Mechanics of Filled Elastomer Blends. In: Grellmann, W., [https://en.wikipedia.org/wiki/Gert_Heinrich Heinrich, G.], Kaliske, M., Klüppel, M., Schneider, K., Vilgis, T. (Eds.): Fracture Mechanics and Statistical Mechanics of Reinforced Elastomeric Blends. Springer Berlin Heidelberg (2013) pp. 227–268, (ISBN 978-3-642-37909-3; see [[AMK-Büchersammlung | AMK-Library]] under A 16)<br />
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''Instrumented puncture impact test (own works)''<br />
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* Reincke, K.; Grellmann, W., Söver, A.(https://www.hs-ansbach.de/personen/sover-alexandru/), Frormann, L.: Verhalten von Polymeren unter stoßartiger Beanspruchung. GAK 65 (2012) 4, pp. 290–296<br />
* Reincke, K., Grellmann, W.: Approaches to Characterise the Mechanical Properties of Films and Elastomers. In: Grellmann, W., Langer, B. (Eds.): Deformation and Fracture Behaviour of Polymer Materials. Springer Series in Materials Science 247, Springer Berlin Heidelberg (2017) pp. 225–336 (ISBN 978-3-319-41877-3; e-Book: ISBN 978-3-319-41879-7; see [[AMK-Büchersammlung | AMK-Library]] under A 19)<br />
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''Instrumented scratch test (own works)''<br />
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* Rybnicek, J., Lach, R., Dominguez, S. R., Tondl, D., Valek, R., Grellmann, W.: Kratzfestigkeit von PA6-Nanokompositen. GAK – Gummi Fasern Kunststoffe 65 (2012) 775–783<br />
* Reincke, K.: Testing of Polymeric Films. In: Grellmann, W., Seidler, S. (Eds.): Polymer Testing. Carl Hanser Munich (2022); 3rd Edition, pp. 643-678 (ISBN 978-1-56990-806-8; e-Book ISBN 978-1-56990-807-5; ePub ISBN 978-1-56990-802-2; see [[AMK-Büchersammlung | AMK-Library]] under A 22)<br />
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''Instrumented adhesion test (own works)''<br />
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* [https://www.researchgate.net/profile/Ralf-Lach Lach, R.], Richter, S., Heilmann, A., Grellmann, W.: Assessment of the Depth-dependent Mechanical and the Adhesive Properties of Coatings on Plastic Films by Means of the Recording Microindentation Test and the Recording Adhesion Test. Journal of Plastic Film and Sheeting 37 (2021) 53–69, https://doi.org/10.1177/8756087920942810<br />
* Reincke, K.: Testing of Polymeric Films. In: Grellmann, W., Seidler, S.: (Eds.): Polymer Testing. Carl Hanser München (2022); 3rd Edition pp. 643–678; (ISBN ISBN 978-1-56990-806-8; e-Book ISBN 978-1-56990-807-5; ePub ISBN 978-1-56990-802-2; see [[AMK-Büchersammlung | AMK-Library]] under A 22)<br />
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[[category: Instrumented Impact Test | Instrumented impact test]]<br />
[[category: Impact Tests | Impact tests]]</div>Oluschinski