{"id":3093,"date":"2026-06-22T12:11:28","date_gmt":"2026-06-22T10:11:28","guid":{"rendered":"https:\/\/www.technical-center.de\/research-special-testing\/"},"modified":"2026-06-22T12:11:28","modified_gmt":"2026-06-22T10:11:28","slug":"research-special-testing","status":"publish","type":"page","link":"https:\/\/www.technical-center.de\/en\/research-special-testing\/","title":{"rendered":"Research &#038; Special Testing"},"content":{"rendered":"<div>\n<p>        <img decoding=\"async\" src=\"\/wp-content\/uploads\/2026\/03\/Technical-Center_Additive-Fertigung.jpg\" alt=\"\"><\/p>\n<p>        <img decoding=\"async\" src=\"\/wp-content\/uploads\/2025\/12\/technischer-hintergrund-pattern.svg\" alt><\/p>\n<h1>Research and special testing<\/h1>\n<p>Specialised testing methods<\/p>\n<div>\n<h2><\/h2>\n<p>Ma\u00dfgeschneiderte Pr\u00fcfmethoden konzentrieren sich auf kundenspezifische Parameter und bieten L\u00f6sungen f\u00fcr komplexe technische Fragestellungen, die Standardtests nicht abdecken k\u00f6nnen.<\/p>\n<\/div>\n<\/div>\n<p><img decoding=\"async\" src=\"\/wp-content\/uploads\/2025\/12\/Dots_gry.png\" alt=\"\"><\/p>\n<div>\n<p>Die Materialpr\u00fcfung spielt eine zentrale Funktion in der modernen Industrie. Spezialisierte Testger\u00e4te erm\u00f6glichen es, Werkstoffe pr\u00e4zise zu bewerten und ihre Eigenschaften unter realen Bedingungen zu analysieren. Werkstofftechnische Untersuchungen gehen dabei weit \u00fcber standardisierte Verfahren hinaus.<\/p>\n<p>Das Leistungsspektrum umfasst technologisch-mechanische Standardpr\u00fcfungen sowie hochspezialisierte Materialanalysen. Verschiedene Werkstoffe lassen sich so systematisch charakterisieren und ihre Leistungsf\u00e4higkeit unter unterschiedlichen Beanspruchungen ermitteln.<\/p>\n<p>Von der Automobilindustrie \u00fcber den Bausektor bis hin zu spezialisierten Schutzmaterialien profitieren zahlreiche Branchen von diesen Verfahren. Werkstofftechnische Untersuchungen helfen, Schwachstellen fr\u00fchzeitig zu identifizieren und Produkteigenschaften gezielt zu verbessern.<\/p>\n<p>Pr\u00fcftechnik und Schadensanalyse tragen entscheidend zur Produktentwicklung bei. Sie gew\u00e4hrleisten Qualit\u00e4tssicherung, erm\u00f6glichen Innovationen und schaffen die Basis f\u00fcr sichere, leistungsf\u00e4hige Materialien in kritischen Anwendungen.<\/p>\n<\/div>\n<ul>\n<li>\n<p>        <img decoding=\"async\" src=\"\/wp-content\/uploads\/2026\/03\/Technical-Center_Additive-Fertigung.jpg\" alt=\"\"><\/p>\n<h3>Qualification of additive manufacturing processes<\/h3>\n<div>\n<p style=\"text-align: left;\">Validating additive processes in terms of materials engineering &#8211; verifying component properties and securing series approval.<\/p>\n<\/div>\n<p><a href=\"https:\/\/www.technical-center.de\/en\/research-special-testing\/qualification-additive-manufacturing-processes\/\">Learn more<\/a><\/p>\n<\/li>\n<li>\n<p>        <img decoding=\"async\" src=\"\/wp-content\/uploads\/2026\/03\/Technical-Center_Wasserstoffbestaendigkeit_HTHA.jpg\" alt=\"\"><\/p>\n<h3>Hydrogen resistance \/ HTHA<\/h3>\n<div>\n<p style=\"text-align: left;\">Assessing hydrogen damage &#8211; testing the suitability of materials, defining operating limits, supporting safety verifications. <\/p>\n<\/div>\n<p><a href=\"https:\/\/www.technical-center.de\/en\/research-special-testing\/hydrogen-resistance-htha-plant-engineering\/\">Learn more<\/a><\/p>\n<\/li>\n<li>\n<p>        <img decoding=\"async\" src=\"\/wp-content\/uploads\/2026\/03\/Technical-Center_KI-Werkstoffanalytik.jpg\" alt=\"\"><\/p>\n<h3>AI-assisted materials analysis<\/h3>\n<div>\n<p style=\"text-align: left;\">Data-driven analysis &#8211; identifying patterns in materials data, quantifying correlations, accelerating decisions.<\/p>\n<\/div>\n<p><a href=\"https:\/\/www.technical-center.de\/en\/research-special-testing\/ai-assisted-materials-analysis-methods-application\/\">Learn more<\/a><\/p>\n<\/li>\n<\/ul>\n<p><img decoding=\"async\" src=\"\/wp-content\/uploads\/2025\/12\/Raster_Dots.png\" alt=\"\"><\/p>\n<h2>\n<p>Fundamentals of materials engineering investigations<\/p>\n<\/h2>\n<div>\n<p>In der modernen Materialwissenschaft spielen pr\u00e4zise Untersuchungsmethoden eine entscheidende Rolle f\u00fcr Innovation und Sicherheit. Werkstofftechnische Untersuchungen erm\u00f6glichen es, Materialeigenschaften genau zu verstehen und gezielt zu bewerten. Diese systematischen Analysen bilden die Basis f\u00fcr fundierte Entscheidungen in Entwicklung und Produktion.<\/p>\n<p>Ohne verl\u00e4ssliche Pr\u00fcfverfahren w\u00e4re es unm\u00f6glich, die Qualit\u00e4t moderner Werkstoffe zu garantieren. Jedes Material bringt spezifische Charakteristika mit, die durch verschiedene Testmethoden sichtbar gemacht werden. Die Ergebnisse dieser Untersuchungen liefern wertvolle Erkenntnisse f\u00fcr Hersteller und Anwender gleicherma\u00dfen.<\/p>\n<\/div>\n<ul>\n<li>\n<h3>Definition and methods<\/h3>\n<div>\n<h3>Definition and methods der Materialpr\u00fcfung<\/h3>\n<p>Werkstoffpr\u00fcfung und Materialanalyse besch\u00e4ftigen sich mit der systematischen Ermittlung von Materialeigenschaften. Diese Disziplinen untersuchen physikalische, mechanische, chemische und strukturelle Merkmale eines Werkstoffs. Durch diese Analysen lassen sich Aussagen \u00fcber Belastbarkeit, Haltbarkeit und Eignung f\u00fcr bestimmte Anwendungen treffen.<\/p>\n<p>Die Pr\u00fcfverfahren gliedern sich in zwei Hauptkategorien. Zerst\u00f6rende Methoden ver\u00e4ndern das Pr\u00fcfobjekt dauerhaft, liefern aber detaillierte Informationen \u00fcber Bruchverhalten und Festigkeit. Zerst\u00f6rungsfreie Verfahren hingegen lassen das Material intakt und eignen sich besonders f\u00fcr die Qualit\u00e4tskontrolle in der laufenden Produktion.<\/p>\n<p>Moderne Materialanalyse arbeitet mit standardisierten Normen. Die DIN EN 20811 regelt beispielsweise die Bestimmung des Widerstandes gegen Wasserdurchdringung durch hydrostatische Druckversuche. F\u00fcr textile Fl\u00e4chengebilde kommt die DIN EN ISO 9237 zur Messung der Luftdurchl\u00e4ssigkeit zum Einsatz.<\/p>\n<p>Spezielle Anforderungen erfordern spezifische Testverfahren:<\/p>\n<ul>\n<li>Penetrationstests mit definierten Krafteinwirkungen auf Klingen zur Bewertung der Durchdringungsbest\u00e4ndigkeit<\/li>\n<li>Schnitttests mit kontrollierten Zugkr\u00e4ften zur Analyse von Rissbildung und Rissausbreitung<\/li>\n<li>Vandalismusschutzpr\u00fcfungen nach franz\u00f6sischer Norm NF F 00-201:1993<\/li>\n<li>Stichschutzmessungen nach VPAM KDIW 2004 mit festgelegten Auftreffenergien<\/li>\n<li>Akustische Untersuchungen mittels Kundtschem Rohr zur Bestimmung schallabsorbierender Eigenschaften<\/li>\n<\/ul>\n<p>Diese Testmethoden erm\u00f6glichen eine pr\u00e4zise Beurteilung unterschiedlichster Materialeigenschaften. Je nach Anforderung kommen verschiedene Pr\u00fcfverfahren zur Anwendung. Die Wahl der richtigen Methode h\u00e4ngt vom Einsatzzweck und den zu ermittelnden Eigenschaften ab.<\/p>\n<\/div>\n<\/li>\n<li>\n<h3>Fields of application<\/h3>\n<div>\n<h3>Fields of application in verschiedenen Branchen<\/h3>\n<p>Werkstofftechnische Untersuchungen finden in zahlreichen Industriezweigen Anwendung. Die Bandbreite reicht von der Automobilindustrie \u00fcber die Textilfertigung bis zur Baubranche. Jeder Sektor stellt spezifische Anforderungen an Materialien und deren Eigenschaften.<\/p>\n<p>Im Bereich der K\u00f6rperschutzausr\u00fcstungen sind Stichschutzmessungen von gro\u00dfer Bedeutung. Diese Pr\u00fcfungen erfolgen mit verschiedenen Klassifizierungen und definierten Auftreffenergien. Die Durchstichtiefe dient als Hauptkriterium f\u00fcr die Bewertung der Schutzwirkung.<\/p>\n<p>Die Verkehrstechnik nutzt werkstofftechnische Untersuchungen f\u00fcr Vandalismusschutz. Materialien f\u00fcr Bahnanwendungen m\u00fcssen besondere Widerstandsf\u00e4higkeit aufweisen. Spezielle Tests nach franz\u00f6sischer Norm gew\u00e4hrleisten, dass Oberfl\u00e4chen mechanischen Angriffen standhalten.<\/p>\n<p>In der Akustik spielen Absorptionsgrad und schalld\u00e4mpfende Eigenschaften eine zentrale Rolle. Vliesstoffe werden mittels Impedanzrohr getestet. Diese Messungen liefern pr\u00e4zise Daten \u00fcber die Schallabsorption bei verschiedenen Frequenzen.<\/p>\n<p>Weitere wichtige Einsatzgebiete umfassen:<\/p>\n<ol>\n<li>Qualit\u00e4tssicherung in der Automobilproduktion f\u00fcr Sicherheitskomponenten<\/li>\n<li>Entwicklung innovativer Textilien mit besonderen Schutzeigenschaften<\/li>\n<li>Bauindustrie zur Pr\u00fcfung von Dichtigkeit und Witterungsbest\u00e4ndigkeit<\/li>\n<li>Medizintechnik f\u00fcr biokompatible Materialien und Implantate<\/li>\n<\/ol>\n<p>Die Vielfalt der Anwendungen zeigt die Bedeutung systematischer Materialanalyse. Werkstoffpr\u00fcfung ist nicht nur eine technische Notwendigkeit, sondern ein Innovationsmotor. Durch pr\u00e4zise Untersuchungen entstehen stetig verbesserte Materialien mit optimierten Eigenschaften f\u00fcr spezifische Anforderungen.<\/p>\n<\/div>\n<\/li>\n<\/ul>\n<div>\n<h3>Key insights<\/h3>\n<div>\n<ul>\n<li>Spezialisierte Materialpr\u00fcfungen erm\u00f6glichen pr\u00e4zise Charakterisierung von Werkstoffen unter realen Einsatzbedingungen<\/li>\n<li>Ma\u00dfgeschneiderte Testverfahren bieten L\u00f6sungen f\u00fcr komplexe technische Anforderungen \u00fcber Standardpr\u00fcfungen hinaus<\/li>\n<li>Werkstofftechnische Analysen unterst\u00fctzen sowohl Produktentwicklung als auch kontinuierliche Qualit\u00e4tskontrolle<\/li>\n<li>Verschiedene Industriezweige profitieren von systematischen Untersuchungen zur Optimierung ihrer Materialien<\/li>\n<li>Fr\u00fchzeitige Erkennung von Schwachstellen verhindert Produktausf\u00e4lle und erh\u00f6ht die Sicherheit<\/li>\n<li>Moderne Pr\u00fcftechniken schaffen die Grundlage f\u00fcr innovative Materialentwicklungen<\/li>\n<li><\/li>\n<\/ul>\n<\/div>\n<\/div>\n<h2>\n<p>Research and special testing in materials engineering<\/p>\n<\/h2>\n<div>\n<p>Spezielle Anforderungen an Werkstoffe verlangen nach ma\u00dfgeschneiderten Pr\u00fcfverfahren und intensiver Forschungsarbeit. Die forschung und sonderpr\u00fcfungen werkstofftechnik entwickelt kontinuierlich neue Methoden, um Materialverhalten unter extremen Bedingungen zu untersuchen. Diese spezialisierten Ans\u00e4tze gehen weit \u00fcber Standardpr\u00fcfungen hinaus und liefern wichtige Erkenntnisse f\u00fcr innovative Produktentwicklungen.<\/p>\n<p>Moderne Industrieanwendungen fordern h\u00f6chste Qualit\u00e4tsstandards bei Langzeitbest\u00e4ndigkeit und Sicherheit. Sonderpr\u00fcfungen erm\u00f6glichen es, Materialeigenschaften unter realistischen Einsatzbedingungen zu bewerten. So entstehen verl\u00e4ssliche Datengrundlagen f\u00fcr Konstruktion und Qualit\u00e4tssicherung.<\/p>\n<\/div>\n<ul>\n<li>\n<h3>Areas of materials research<\/h3>\n<div>\n<h3>Zentrale Areas of materials research<\/h3>\n<p>Die Forschungsfelder werkstofftechnik umfassen verschiedene Schwerpunkte, die f\u00fcr industrielle Anwendungen entscheidend sind. Jeder Bereich konzentriert sich auf spezifische Materialeigenschaften und deren Verhalten \u00fcber l\u00e4ngere Zeitr\u00e4ume. Die Untersuchungen liefern wichtige Erkenntnisse \u00fcber Alterungsprozesse und Lebensdauer.<\/p>\n<p>Ein zentraler Forschungsbereich ist die Lebensdaueranalyse an Kunststoffrohren unter Zeitstand-Innendruckbeanspruchung. Bei diesen Langzeitversuchen werden Rohrsysteme \u00fcber Monate oder Jahre hinweg unter konstantem Innendruck getestet. Die Ergebnisse zeigen, wie Materialien auf dauerhafte mechanische Belastung reagieren.<\/p>\n<p>Das thermische Langzeitverhalten von Elektroisolierstoffen bildet einen weiteren Schwerpunkt. Diese Materialien m\u00fcssen \u00fcber Jahrzehnte hinweg zuverl\u00e4ssig isolieren, ohne ihre Eigenschaften zu verlieren. Temperaturwechsel und kontinuierliche W\u00e4rmebelastung werden in speziellen Pr\u00fcfkammern simuliert.<\/p>\n<p>Folgende Forschungsbereiche stehen im Fokus aktueller Untersuchungen:<\/p>\n<ul>\n<li><strong>Zeit- und temperaturabh\u00e4ngiges Verhalten von Kunststoffen:<\/strong> Analyse der Materialalterung unter verschiedenen Klimabedingungen zur Vorhersage der Gebrauchsdauer<\/li>\n<li><strong>Druck-Verformungsverhalten elastomerer Dichtelemente:<\/strong> Langzeitversuche zur Bewertung der R\u00fcckstellf\u00e4higkeit und Funktionssicherheit von Dichtungen<\/li>\n<li><strong>Mechanisches Sch\u00e4digungsverhalten von Verbundwerkstoffen:<\/strong> Untersuchung von Bauteilen unter zyklischer Beanspruchung zur Ermittlung der Erm\u00fcdungsfestigkeit<\/li>\n<li><strong>Alterungsuntersuchungen durch Bewitterung:<\/strong> Simulation nat\u00fcrlicher und beschleunigter Umwelteinfl\u00fcsse auf Materialoberfl\u00e4chen<\/li>\n<\/ul>\n<p>Diese forschungsfelder werkstofftechnik generieren Daten, die f\u00fcr Produktzulassungen und Normungsverfahren ben\u00f6tigt werden. Die systematische Erfassung von Materialdegradation erm\u00f6glicht realistische Lebensdauerprognosen. Hersteller nutzen diese Informationen zur Optimierung ihrer Produkte.<\/p>\n<\/div>\n<p><a href=\"#\">Button<\/a><\/p>\n<\/li>\n<li>\n<h3>Specialised testing methods<\/h3>\n<div>\n<h3>Specialised testing methods f\u00fcr besondere Einsatzbedingungen<\/h3>\n<p>Sonderpr\u00fcfungen adressieren Anforderungen, die in Standardverfahren nicht abgedeckt werden. Diese spezialpr\u00fcfungen ber\u00fccksichtigen individuelle Einsatzszenarien und au\u00dfergew\u00f6hnliche Belastungsf\u00e4lle. Ma\u00dfgeschneiderte Testaufbauten simulieren reale Anwendungsbedingungen mit hoher Pr\u00e4zision.<\/p>\n<p>Die Pr\u00fcfung des Brandverhaltens nach DIN 4102-1\/B2 geh\u00f6rt zu den wichtigsten sonderpr\u00fcfungen im Baubereich. Materialien werden definierten Flammen ausgesetzt, um ihre Entflammbarkeit und das Brandausbreitungsverhalten zu bewerten. Die Klassifizierung nach Baustoffklassen entscheidet \u00fcber Zulassungen f\u00fcr verschiedene Geb\u00e4udetypen.<\/p>\n<p>Elektrische Eigenschaften von Kunststoffen und Verbundwerkstoffen werden in spezialisierten Labors ermittelt. Diese Tests umfassen die Messung von Durchschlagsfestigkeit, Oberfl\u00e4chenwiderstand und dielektrischen Verlusten. F\u00fcr Anwendungen in der Elektrotechnik sind diese Parameter entscheidend.<\/p>\n<p>Besonders anspruchsvoll gestaltet sich die Pr\u00fcfung von Hybridverbunden aus Kunststoff und Beton. Diese Materialkombinationen vereinen unterschiedliche mechanische Eigenschaften und erfordern adaptierte Pr\u00fcfmethoden. Die Haftfestigkeit zwischen den Komponenten und das Verbundverhalten unter Last stehen im Mittelpunkt.<\/p>\n<p>Spezialisierte Pr\u00fcfverfahren umfassen folgende Bereiche:<\/p>\n<ul>\n<li><strong>K\u00fcnstliche Bewitterung:<\/strong> Beschleunigte Alterung durch UV-Strahlung, Temperaturzyklen und Feuchtigkeitsbelastung in Klimakammern<\/li>\n<li><strong>Nat\u00fcrliche Bewitterung:<\/strong> Langzeitauslagerung von Proben unter realen Umweltbedingungen zur Validierung beschleunigter Tests<\/li>\n<li><strong>Konzeptmusterherstellung:<\/strong> Fertigung von Prototypen zur Erprobung neuer Materialkombinationen vor der Serienproduktion<\/li>\n<li><strong>Versuchsanlagen mit Faservariationen:<\/strong> Tests verschiedener Fasern und Fasermischungen zur Optimierung von Verbundwerkstoffen<\/li>\n<\/ul>\n<p>Diese spezialpr\u00fcfungen liefern Erkenntnisse, die bei der Materialauswahl f\u00fcr anspruchsvolle Projekte entscheidend sind. Die Kombination aus Labor- und Feldversuchen gew\u00e4hrleistet praxisnahe Ergebnisse. Dokumentierte Langzeiterfahrungen flie\u00dfen in Konstruktionsrichtlinien und Werkstoffnormen ein.<\/p>\n<p>Die Ermittlung elektrischer Eigenschaften erfolgt nach standardisierten Messverfahren mit hochpr\u00e4zisen Ger\u00e4ten. Temperaturabh\u00e4ngige Messungen zeigen, wie sich die Isolationsf\u00e4higkeit unter verschiedenen Betriebsbedingungen ver\u00e4ndert. Diese Daten sind f\u00fcr die Auslegung elektrischer Isolationssysteme unverzichtbar.<\/p>\n<\/div>\n<p><a href=\"#\">Button<\/a><\/p>\n<\/li>\n<\/ul>\n<h2>\n<p>Test technology and failure analysis in practice<\/p>\n<\/h2>\n<div>\n<p>Die t\u00e4gliche Arbeit mit Werkstoffen erfordert verl\u00e4ssliche Methoden, um Materialeigenschaften zu bestimmen und Fehlerquellen aufzusp\u00fcren. Werkstoffpr\u00fcfung und Materialanalyse haben sich zu unverzichtbaren Werkzeugen entwickelt. Sie sichern Qualit\u00e4t und helfen, kostspielige Fehler fr\u00fchzeitig zu vermeiden.<\/p>\n<p>Betriebe nutzen moderne Untersuchungsmethoden, um Produkte vor der Serienproduktion ausgiebig zu testen. Dabei kommen verschiedene Pr\u00fcfverfahren zum Einsatz, die sich gegenseitig erg\u00e4nzen. Die Kombination unterschiedlicher Techniken liefert ein vollst\u00e4ndiges Bild der Materialeigenschaften.<\/p>\n<\/div>\n<h3>Contemporary investigation methods in use<\/h3>\n<div>\n<p><span>Acoustic test rigs with a Kundt&#8217;s tube enable precise measurements of sound absorption. <\/span><\/p>\n<\/div>\n<div>\n<div>\n<p>Diese Impedanzrohre arbeiten in einem Frequenzbereich von 50 Hz bis 1,6 kHz. Materialproben mit definierten Abmessungen werden untersucht, um ihre schalld\u00e4mpfenden Eigenschaften zu charakterisieren.<\/p>\n<p>Solche Messungen dienen als orientierende Tests vor umfangreicheren Pr\u00fcfungen. Sie helfen, vielversprechende Materialkombinationen schnell zu identifizieren. Erst danach folgen normgetreue Pr\u00fcfungen in speziell optimierten Pr\u00fcfr\u00e4umen.<\/p>\n<p>Konzeptmuster werden auf kleineren Versuchsanlagen hergestellt, bevor die Gro\u00dfproduktion startet. Diese Musterherstellung umfasst Tests verschiedener Fasern oder Fasermischungen. Dabei entstehen Krempelflore, die anschlie\u00dfend auf Wasserstrahl- oder Nadelverfestigungsanlagen weiterverarbeitet werden.<\/p>\n<p>Ausr\u00fcstungsversuche an Handmustern erfolgen durch verschiedene Applikationsmethoden:<\/p>\n<ul>\n<li>Versuchsfoulard f\u00fcr gleichm\u00e4\u00dfige Impr\u00e4gnierung<\/li>\n<li>Schaumauftrag f\u00fcr volumin\u00f6se Beschichtungen<\/li>\n<li>Pastenauftrag f\u00fcr dickere Schichten<\/li>\n<li>Druckverfahren f\u00fcr dekorative Muster<\/li>\n<\/ul>\n<p>Diese Analyseverfahren erlauben kundenspezifische Konfigurationen. Hydro- und Oleophobierung sch\u00fctzt vor Feuchtigkeit und \u00d6len. Flammschutzausr\u00fcstung erh\u00f6ht die Sicherheit in kritischen Anwendungen.<\/p>\n<p>Weitere Behandlungen umfassen Versteifung f\u00fcr zus\u00e4tzliche Stabilit\u00e4t, Laminierung f\u00fcr Verbundstrukturen und Farbaufbringung f\u00fcr \u00e4sthetische Anforderungen. Jede Behandlung wird sorgf\u00e4ltig auf die sp\u00e4teren Einsatzbedingungen abgestimmt.<\/p>\n<\/div>\n<\/div>\n<h3>Uncovering sources of error methodically<\/h3>\n<div>\n<p><span>Failure analysis follows a structured process that begins with the thorough documentation of the damage pattern. <\/span><\/p>\n<\/div>\n<div>\n<div>\n<p>Experten erfassen zun\u00e4chst alle sichtbaren Merkmale und \u00e4u\u00dferen Bedingungen. Diese erste Bestandsaufnahme liefert wichtige Hinweise f\u00fcr die weitere Untersuchung.<\/p>\n<p>Die Auswahl geeigneter Pr\u00fcfverfahren richtet sich nach der Art des vermuteten Schadens. Mechanische Sch\u00e4digungen werden durch visuelle Inspektion und mikroskopische Untersuchungen charakterisiert. Zus\u00e4tzliche mechanische Tests zeigen, wie sich die Materialeigenschaften ver\u00e4ndert haben.<\/p>\n<p>Thermische Sch\u00e4den erfordern eine Analyse des Materialverhaltens unter verschiedenen Temperaturbedingungen. Dabei wird untersucht, wie Hitze oder K\u00e4lte die Struktur beeinflusst haben. Oft zeigen sich typische Ver\u00e4nderungen, die auf bestimmte Temperaturbelastungen hinweisen.<\/p>\n<p>Chemische Degradation wird durch gezielte Analytik aufgesp\u00fcrt. Ver\u00e4nderungen in der molekularen Struktur oder der Zusammensetzung geben Aufschluss \u00fcber aggressive Medien. Die Kombination mehrerer Analyseverfahren erm\u00f6glicht eine eindeutige Identifikation der Schadensursache.<\/p>\n<p>Ein systematisches Vorgehen ist entscheidend f\u00fcr belastbare Ergebnisse:<\/p>\n<ol>\n<li>Schadensbild vollst\u00e4ndig dokumentieren<\/li>\n<li>Hypothesen \u00fcber m\u00f6gliche Ursachen formulieren<\/li>\n<li>Passende Untersuchungsmethoden ausw\u00e4hlen<\/li>\n<li>Messungen durchf\u00fchren und Daten sammeln<\/li>\n<li>Ergebnisse interpretieren und Schl\u00fcsse ziehen<\/li>\n<\/ol>\n<p>Diese strukturierte Fehleranalyse hilft, auch komplexe Schadensmechanismen zu verstehen. Sie zeigt nicht nur die Ursache, sondern auch m\u00f6gliche Pr\u00e4ventionsma\u00dfnahmen auf.<\/p>\n<\/div>\n<\/div>\n<h3>Systematic recording and assessment<\/h3>\n<div>\n<p>Qualified test reports form the foundation of every professional materials testing and material analysis.<\/p>\n<\/div>\n<div>\n<div>\n<p>Sie enthalten alle relevanten Untersuchungsschritte und die erzielten Ergebnisse. Transparente Dokumentation schafft Vertrauen und erm\u00f6glicht Nachvollziehbarkeit.<\/p>\n<p>Messdaten werden graphisch aufbereitet, um Trends und Muster erkennbar zu machen. Diagramme und Tabellen vereinfachen die Interpretation komplexer Zusammenh\u00e4nge. Klare Visualisierungen helfen allen Beteiligten, die Materialeigenschaften besser zu verstehen.<\/p>\n<p>Auftragspr\u00fcfungen erfolgen in Anlehnung an spezifische Normen und Standards. Diese Referenzen gew\u00e4hrleisten Vergleichbarkeit zwischen verschiedenen Untersuchungen. Reproduzierbarkeit ist ein zentrales Qualit\u00e4tskriterium bei der Pr\u00fcftechnik und Schadensanalyse.<\/p>\n<p>Die Dokumentation umfasst mehrere wichtige Bestandteile:<\/p>\n<ul>\n<li>Detaillierte Beschreibung der Pr\u00fcfbedingungen<\/li>\n<li>Verwendete Ger\u00e4te und Kalibrierungsstatus<\/li>\n<li>Rohdaten und berechnete Kennwerte<\/li>\n<li>Fotodokumentation relevanter Befunde<\/li>\n<li>Interpretation mit fachlicher Bewertung<\/li>\n<\/ul>\n<p>Professionelle Erfassung ist f\u00fcr Qualit\u00e4tssicherung unverzichtbar. Sie dient auch als Nachweis bei Produkthaftungsfragen. Sorgf\u00e4ltige Berichte sch\u00fctzen alle Beteiligten und dokumentieren die Einhaltung vereinbarter Standards.<\/p>\n<p>Digitale Archivierung erm\u00f6glicht schnellen Zugriff auf fr\u00fchere Untersuchungen. Vergleiche mit historischen Daten helfen, langfristige Trends zu erkennen. Diese Wissensbasis unterst\u00fctzt kontinuierliche Verbesserungsprozesse und beschleunigt zuk\u00fcnftige Schadensanalyse-Projekte.<\/p>\n<\/div>\n<\/div>\n<h2>Frequently asked questions about research and special testing in materials engineering<\/h2>\n<ul>\n<li>\n<h3>What current research fields are there in materials engineering?<\/h3>\n<div>\n<p><span>Current research fields include service-life analyses of plastic pipes under constant internal pressure loading, investigations into the long-term thermal behaviour of electrical insulating materials under various temperature conditions, as well as time- and temperature-dependent behaviour of plastics to predict material ageing. Further focal points are the characterisation of the compression set behaviour of elastomeric sealing elements in long-term tests and the mechanical damage behaviour of composite materials under cyclic loading. These research fields provide important insights for material optimisation and ensure functionality throughout the entire period of use.<\/span><\/p>\n<\/div>\n<\/li>\n<li>\n<h3>What are special tests and what are they needed for?<\/h3>\n<div>\n<div itemscope=\"\" itemprop=\"mainEntity\" itemtype=\"https:\/\/schema.org\/Question\">\n<div itemscope=\"\" itemprop=\"acceptedAnswer\" itemtype=\"https:\/\/schema.org\/Answer\">\n<div itemprop=\"text\">Sonderpr\u00fcfungen sind spezialisierte Testverfahren f\u00fcr spezifische Anforderungen, die \u00fcber Standardtests hinausgehen. Sie umfassen Alterungsuntersuchungen durch k\u00fcnstliche und nat\u00fcrliche Bewitterung, die simulieren, wie Materialien auf Umwelteinfl\u00fcsse wie UV-Strahlung, Feuchtigkeit und Temperaturschwankungen reagieren. Weitere Sonderpr\u00fcfungen beinhalten die Ermittlung des Brandverhaltens nach relevanten Normen, die Bestimmung elektrischer Eigenschaften von Kunststoffen und Verbundwerkstoffen sowie die Pr\u00fcfung von Hybridverbunden aus Kunststoff und Beton. Konzeptmusterherstellung auf Versuchsanlagen mit verschiedenen Fasern und Fasermischungen dient als wichtige Vorstufe vor Gro\u00dfversuchen und erm\u00f6glicht ma\u00dfgeschneiderte L\u00f6sungen f\u00fcr komplexe Fragestellungen.<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/li>\n<\/ul>\n<h1>Unser Fazit<br \/>\n<\/h1>\n<div>\n<p>Die Werkstofftechnik verbindet wissenschaftliche Forschung mit praktischen Pr\u00fcfverfahren. Werkstoffpr\u00fcfung und Materialanalyse bilden das Fundament f\u00fcr sichere und leistungsf\u00e4hige Produkte in allen Industriebereichen. Das Spektrum reicht von genormten Standardverfahren bis zu spezialisierten Sonderpr\u00fcfungen.<\/p>\n<p>Moderne Pr\u00fcftechnik erm\u00f6glicht pr\u00e4zise Aussagen \u00fcber Materialeigenschaften und Lebensdauer. Die systematische Schadensanalyse deckt Schwachstellen auf und liefert wertvolle Erkenntnisse f\u00fcr die Produktentwicklung. Verschiedene Analyseverfahren erg\u00e4nzen sich und schaffen ein vollst\u00e4ndiges Bild der Werkstoffeigenschaften.<\/p>\n<p>Anerkannte Pr\u00fcflabore f\u00fcr G\u00fcte\u00fcberwachung arbeiten nach etablierten Standards. Sie bieten umfassende Dienstleistungen von Routinepr\u00fcfungen bis zu hochspezialisierten Sonderuntersuchungen an. Ihre Expertise unterst\u00fctzt Unternehmen bei der Qualit\u00e4tssicherung und Innovation.<\/p>\n<p>Research and special testing Werkstofftechnik entwickeln sich kontinuierlich weiter. Neue Anforderungen an Materialleistung, Sicherheit und Nachhaltigkeit treiben den Fortschritt voran. Spezialisierte Forschungsfelder wie Lebensdaueranalysen und Alterungsuntersuchungen gewinnen zunehmend an Bedeutung. Die professionelle Dokumentation und systematische Auswertung bilden die Basis f\u00fcr fundierte Entscheidungen in Entwicklung und Produktion.<\/p>\n<\/div>\n<p><!--more--><br \/>\n<!-- {\"type\":\"layout\",\"children\":[{\"type\":\"section\",\"props\":{\"image_position\":\"center-center\",\"overlap\":true,\"style\":\"default\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"props\":{\"parallax\":false},\"children\":[{\"type\":\"column\",\"props\":{\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\"},\"children\":[{\"name\":\"Overlay Content Tile Caption Right Center\",\"type\":\"overlay\",\"props\":{\"content\":\"\n\n<h2><\/h2>\n\n\\n\n\n<p>Tailored testing methods focus on customer-specific parameters and provide solutions for complex technical questions that standard tests cannot address.<\/p>\n\n\",\"content_style\":\"text-small\",\"hover_image\":\"wp-content\/uploads\/2025\/12\/technischer-hintergrund-pattern.svg\",\"image\":\"wp-content\/uploads\/2026\/03\/Technical-Center_Additive-Fertigung.jpg\",\"image_box_decoration\":\"default\",\"image_focal_point\":\"center-right\",\"image_height\":400,\"image_min_height\":\"500\",\"image_width\":1200,\"link_margin\":\"xlarge\",\"link_style\":\"text\",\"link_text\":\"\",\"margin_bottom\":\"\",\"margin_top\":\"\",\"meta\":\"Specialised testing methods\",\"meta_align\":\"above-title\",\"meta_color\":\"emphasis\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"overlay_hover\":false,\"overlay_link\":true,\"overlay_margin\":\"small\",\"overlay_maxwidth\":\"large\",\"overlay_mode\":\"caption\",\"overlay_padding\":\"large\",\"overlay_position\":\"center-right\",\"overlay_style\":\"tile-default\",\"overlay_transition\":\"fade\",\"text_align\":\"\",\"text_color\":\"light\",\"title\":\"Research and special testing\",\"title_element\":\"h1\",\"title_hover_style\":\"reset\"}}]}]}],\"name\":\"NEU Hover-Header Ebene 1 PLATZHALTER-BILD\"},{\"type\":\"section\",\"props\":{\"image_position\":\"center-center\",\"padding_bottom\":\"xsmall\",\"padding_top\":\"xsmall\",\"preserve_color\":false,\"style\":\"default\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"children\":[{\"type\":\"column\",\"props\":{\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"style\":\"tile-muted\"},\"children\":[{\"type\":\"breadcrumbs\",\"props\":{\"show_current\":true,\"show_home\":false}},{\"type\":\"image\",\"props\":{\"blend\":false,\"image\":\"wp-content\/uploads\/2025\/12\/Dots_gry.png\",\"image_focal_point\":\"top-left\",\"image_height\":800,\"image_svg_color\":\"emphasis\",\"image_width\":0,\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"position\":\"absolute\",\"position_left\":\"-600\",\"position_top\":\"-440\"}},{\"type\":\"text\",\"props\":{\"column\":\"1-3\",\"column_breakpoint\":\"m\",\"content\":\"\n\n<p>Materials testing plays a central role in modern industry. Specialised test equipment makes it possible to evaluate materials precisely and to analyse their properties under real-world conditions. Materials engineering investigations go far beyond standardised procedures.<\/p>\n\n\\n\n\n<p>The range of services covers technological-mechanical standard tests as well as highly specialised material analyses. This allows different materials to be characterised systematically and their performance under varying loads to be determined.<\/p>\n\n\\n\n\n<p>From the automotive industry through the construction sector to specialised protective materials, numerous industries benefit from these methods. Materials engineering investigations help to identify weak points at an early stage and to improve product properties in a targeted way.<\/p>\n\n\\n\n\n<p>Test technology and failure analysis make a decisive contribution to product development. They ensure quality assurance, enable innovation and create the basis for safe, high-performance materials in critical applications.<\/p>\n\n\",\"margin_bottom\":\"default\",\"margin_top\":\"default\"}}]}]}],\"name\":\"Einleitung Ebene 1\"},{\"type\":\"section\",\"props\":{\"image_position\":\"center-center\",\"style\":\"default\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"children\":[{\"type\":\"column\",\"props\":{\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\"},\"children\":[{\"type\":\"grid\",\"props\":{\"content_align\":false,\"content_column_breakpoint\":\"m\",\"content_margin\":\"small\",\"content_style\":\"text-small\",\"filter\":false,\"filter_align\":\"left\",\"filter_all\":true,\"filter_grid_breakpoint\":\"m\",\"filter_grid_width\":\"auto\",\"filter_position\":\"top\",\"filter_style\":\"tab\",\"grid_column_align\":true,\"grid_column_gap\":\"small\",\"grid_default\":\"1\",\"grid_divider\":false,\"grid_medium\":\"3\",\"grid_parallax\":\"0\",\"grid_parallax_justify\":false,\"grid_row_align\":true,\"grid_row_gap\":\"small\",\"grid_small\":\"2\",\"image_align\":\"top\",\"image_expand\":false,\"image_grid_breakpoint\":\"m\",\"image_grid_width\":\"1-2\",\"image_height\":150,\"image_svg_color\":\"emphasis\",\"image_width\":400,\"item_animation\":true,\"lightbox\":false,\"lightbox_animation\":\"fade\",\"lightbox_bg_close\":false,\"link_fullwidth\":true,\"link_margin\":\"medium\",\"link_rel_noreferrer\":false,\"link_size\":\"small\",\"link_style\":\"danger\",\"link_target\":true,\"link_text\":\"Learn more\",\"margin_bottom\":\"default\",\"margin_top\":\"medium\",\"meta_align\":\"below-title\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"panel_image_no_padding\":true,\"panel_link\":true,\"panel_link_hover\":true,\"panel_padding\":\"small\",\"panel_style\":\"card-default\",\"show_content\":true,\"show_hover_image\":true,\"show_hover_video\":true,\"show_image\":true,\"show_link\":true,\"show_meta\":true,\"show_title\":true,\"show_video\":true,\"text_align\":\"center\",\"title_align\":\"top\",\"title_decoration\":\"divider\",\"title_element\":\"h3\",\"title_grid_breakpoint\":\"m\",\"title_grid_width\":\"1-2\",\"title_hover_style\":\"reset\",\"title_link\":true,\"title_margin_auto\":true,\"title_style\":\"h2\"},\"children\":[{\"type\":\"grid_item\",\"props\":{\"content\":\"\n\n<p style=\\\"text-align: left;\\\">Validating additive processes in terms of materials engineering - verifying component properties and securing series approval.<\/p>\n\n\",\"image\":\"wp-content\/uploads\/2026\/03\/Technical-Center_Additive-Fertigung.jpg\",\"link\":\"forschung-sonderpruefungen\/qualifizierung-additiver-fertigungsverfahren\/\",\"title\":\"Qualification of additive manufacturing processes\"}},{\"type\":\"grid_item\",\"props\":{\"content\":\"\n\n<p style=\\\"text-align: left;\\\">Assessing hydrogen damage - testing the suitability of materials, defining operating limits, supporting safety verifications. <\/p>\n\n\",\"image\":\"wp-content\/uploads\/2026\/03\/Technical-Center_Wasserstoffbestaendigkeit_HTHA.jpg\",\"link\":\"forschung-sonderpruefungen\/wasserstoffbestaendigkeit-htha-im-anlagenbau\/\",\"title\":\"Hydrogen resistance \/ HTHA\"}},{\"type\":\"grid_item\",\"props\":{\"content\":\"\n\n<p style=\\\"text-align: left;\\\">Data-driven analysis - identifying patterns in materials data, quantifying correlations, accelerating decisions.<\/p>\n\n\",\"image\":\"wp-content\/uploads\/2026\/03\/Technical-Center_KI-Werkstoffanalytik.jpg\",\"link\":\"forschung-sonderpruefungen\/ki-gestuetzte-werkstoffanalytik-methoden\/\",\"title\":\"AI-assisted materials analysis\"}}],\"name\":\"Standard Grid Technical Center\"}]}]}]},{\"type\":\"section\",\"props\":{\"image_position\":\"center-center\",\"overlap\":false,\"padding_bottom\":\"xsmall\",\"padding_top\":\"xsmall\",\"style\":\"default\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"children\":[{\"type\":\"column\",\"props\":{\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\"},\"children\":[{\"type\":\"image\",\"props\":{\"blend\":false,\"image\":\"wp-content\/uploads\/2025\/12\/Raster_Dots.png\",\"image_height\":0,\"image_svg_color\":\"emphasis\",\"image_width\":0,\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"position\":\"absolute\",\"position_left\":\"-200\",\"position_top\":\"70\"}}]}],\"props\":{\"divider\":false,\"parallax\":false,\"row_gap\":\"small\"}},{\"type\":\"row\",\"children\":[{\"type\":\"column\",\"props\":{\"background_color\":\"#FFFFFF\",\"border\":false,\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\"},\"children\":[{\"type\":\"headline\",\"props\":{\"content\":\"\n\n<p>Fundamentals of materials engineering investigations<\/p>\n\n\",\"image_align\":\"left\",\"image_margin\":\"xsmall\",\"title_color\":\"secondary\",\"title_decoration\":\"line\",\"title_element\":\"h2\",\"title_style\":\"h2\"}},{\"type\":\"text\",\"props\":{\"column_breakpoint\":\"m\",\"content\":\"\n\n<p>In modern materials science, precise investigation methods play a decisive role for innovation and safety. Materials engineering investigations make it possible to understand material properties exactly and to evaluate them in a targeted manner. These systematic analyses form the basis for well-founded decisions in development and production.<\/p>\n\n\\n\n\n<p>Without reliable test procedures it would be impossible to guarantee the quality of modern materials. Every material brings specific characteristics that are made visible through various testing methods. The results of these investigations provide valuable insights for manufacturers and users alike.<\/p>\n\n\",\"margin_bottom\":\"default\",\"margin_top\":\"default\"}},{\"name\":\"Switcher Tabs Top Image Bottom\",\"type\":\"switcher\",\"children\":[{\"type\":\"switcher_item\",\"props\":{\"content\":\"\n\n<h3>Definition and methods of materials testing<\/h3>\n\n\\n\n\n<p>Materials testing and material analysis deal with the systematic determination of material properties. These disciplines examine the physical, mechanical, chemical and structural characteristics of a material. These analyses make it possible to draw conclusions about load-bearing capacity, durability and suitability for specific applications.<\/p>\n\n\\n\n\n<p>The test procedures are divided into two main categories. Destructive methods permanently alter the test object but provide detailed information on fracture behaviour and strength. Non-destructive procedures, by contrast, leave the material intact and are particularly suitable for quality control in ongoing production.<\/p>\n\n\\n\n\n<p>Modern material analysis works with standardised norms. DIN EN 20811, for example, governs the determination of resistance to water penetration by means of hydrostatic pressure tests. For textile fabrics, DIN EN ISO 9237 is used to measure air permeability.<\/p>\n\n\\n\n\n<p>Special requirements call for specific test procedures:<\/p>\n\n\\n\n\n<ul>\\n\n\n<li>Penetration tests with defined forces applied to blades to assess penetration resistance<\/li>\n\n\\n\n\n<li>Cut tests with controlled tensile forces to analyse crack initiation and crack propagation<\/li>\n\n\\n\n\n<li>Vandalism protection tests according to the French standard NF F 00-201:1993<\/li>\n\n\\n\n\n<li>Stab protection measurements according to VPAM KDIW 2004 with defined impact energies<\/li>\n\n\\n\n\n<li>Acoustic investigations using a Kundt's tube to determine sound-absorbing properties<\/li>\n\n\\n<\/ul>\n\n\\n\n\n<p>These testing methods enable a precise assessment of the most diverse material properties. Depending on the requirement, different test procedures are applied. The choice of the right method depends on the intended use and the properties to be determined.<\/p>\n\n\",\"image\":\"\",\"title\":\"Definition and methods\"}},{\"type\":\"switcher_item\",\"props\":{\"content\":\"\n\n<h3>Fields of application in various industries<\/h3>\n\n\\n\n\n<p>Materials engineering investigations are used in numerous industrial sectors. The range extends from the automotive industry through textile manufacturing to the construction industry. Each sector places specific demands on materials and their properties.<\/p>\n\n\\n\n\n<p>In the field of body protection equipment, stab protection measurements are of great importance. These tests are carried out with various classifications and defined impact energies. The penetration depth serves as the main criterion for assessing the protective effect.<\/p>\n\n\\n\n\n<p>Transport technology uses materials engineering investigations for vandalism protection. Materials for railway applications must exhibit particular resistance. Special tests according to the French standard ensure that surfaces withstand mechanical attacks.<\/p>\n\n\\n\n\n<p>In acoustics, the absorption coefficient and sound-damping properties play a central role. Nonwovens are tested using an impedance tube. These measurements provide precise data on sound absorption at various frequencies.<\/p>\n\n\\n\n\n<p>Further important areas of application include:<\/p>\n\n\\n\n\n<ol>\\n\n\n<li>Quality assurance in automotive production for safety components<\/li>\n\n\\n\n\n<li>Development of innovative textiles with special protective properties<\/li>\n\n\\n\n\n<li>Construction industry for testing tightness and weather resistance<\/li>\n\n\\n\n\n<li>Medical technology for biocompatible materials and implants<\/li>\n\n\\n<\/ol>\n\n\\n\n\n<p>The variety of applications demonstrates the importance of systematic material analysis. Materials testing is not only a technical necessity but also a driver of innovation. Precise investigations continually lead to improved materials with optimised properties for specific requirements.<\/p>\n\n\",\"image\":\"\",\"link_text\":\"Button\",\"title\":\"Fields of application\"}}],\"props\":{\"content_column_breakpoint\":\"m\",\"image_align\":\"left\",\"image_grid_breakpoint\":\"m\",\"image_grid_width\":\"auto\",\"image_svg_color\":\"emphasis\",\"image_svg_inline\":true,\"image_vertical_align\":true,\"link_fullwidth\":false,\"link_style\":\"primary\",\"link_target\":true,\"link_text\":\"Read more\",\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"meta_align\":\"below-title\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"nav\":\"tab\",\"nav_align\":\"left\",\"nav_grid_breakpoint\":\"m\",\"nav_grid_width\":\"auto\",\"nav_margin\":\"medium\",\"nav_position\":\"top\",\"show_content\":true,\"show_image\":true,\"show_label\":true,\"show_link\":true,\"show_meta\":true,\"show_thumbnail\":true,\"show_title\":false,\"switcher_animation\":\"fade\",\"switcher_height\":true,\"thumbnav_height\":\"75\",\"thumbnav_svg_color\":\"emphasis\",\"thumbnav_width\":\"100\",\"title_align\":\"top\",\"title_element\":\"h3\",\"title_grid_breakpoint\":\"m\",\"title_grid_width\":\"1-2\"}}]}],\"props\":{\"column_gap\":\"collapse\",\"margin_bottom\":\"small\",\"margin_top\":\"small\"}}],\"name\":\"Grundlagen Ebene 1\"},{\"type\":\"section\",\"props\":{\"image_position\":\"center-center\",\"padding_bottom\":\"xsmall\",\"padding_top\":\"xsmall\",\"preserve_color\":true,\"style\":\"muted\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"children\":[{\"type\":\"column\",\"props\":{\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"style\":\"tile-muted\"},\"children\":[{\"type\":\"panel\",\"props\":{\"content\":\"\n\n<ul>\\n\n\n<li>Specialised materials tests enable precise characterisation of materials under real operating conditions<\/li>\n\n\\n\n\n<li>Tailored test procedures provide solutions for complex technical requirements beyond standard tests<\/li>\n\n\\n\n\n<li>Materials engineering analyses support both product development and continuous quality control<\/li>\n\n\\n\n\n<li>Various industrial sectors benefit from systematic investigations to optimise their materials<\/li>\n\n\\n\n\n<li>Early detection of weak points prevents product failures and increases safety<\/li>\n\n\\n\n\n<li>Modern testing techniques create the basis for innovative material developments<\/li>\n\n\\n\n\n<li><\/li>\n\n\\n<\/ul>\n\n\",\"content_column_breakpoint\":\"m\",\"image_align\":\"top\",\"image_grid_breakpoint\":\"m\",\"image_grid_width\":\"1-2\",\"image_svg_color\":\"emphasis\",\"link_style\":\"default\",\"link_text\":\"Read more\",\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"meta_align\":\"below-title\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"panel_padding\":\"small\",\"panel_style\":\"card-overlay\",\"title\":\"Key insights\",\"title_align\":\"top\",\"title_color\":\"emphasis\",\"title_decoration\":\"bullet\",\"title_element\":\"h3\",\"title_grid_breakpoint\":\"m\",\"title_grid_width\":\"1-2\",\"title_hover_style\":\"reset\",\"title_style\":\"h3\"}}]}]}],\"name\":\"Wichtige Erkenntnisse Ebene 1\"},{\"type\":\"section\",\"props\":{\"image_position\":\"center-center\",\"overlap\":false,\"padding_bottom\":\"xsmall\",\"padding_top\":\"xsmall\",\"style\":\"default\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"children\":[{\"type\":\"column\",\"props\":{\"background_color\":\"#FFFFFF\",\"border\":false,\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\"},\"children\":[{\"type\":\"headline\",\"props\":{\"content\":\"\n\n<p>Research and special testing in materials engineering<\/p>\n\n\",\"image_align\":\"left\",\"image_margin\":\"xsmall\",\"title_color\":\"secondary\",\"title_decoration\":\"line\",\"title_element\":\"h2\",\"title_style\":\"h2\"}},{\"type\":\"text\",\"props\":{\"column_breakpoint\":\"m\",\"content\":\"\n\n<p>Special requirements for materials call for tailored test procedures and intensive research work. Research and special testing in materials engineering continually develops new methods to investigate material behaviour under extreme conditions. These specialised approaches go far beyond standard tests and provide important insights for innovative product developments.<\/p>\n\n\\n\n\n<p>Modern industrial applications demand the highest quality standards in terms of long-term durability and safety. Special tests make it possible to evaluate material properties under realistic operating conditions. This creates reliable data foundations for design and quality assurance.<\/p>\n\n\",\"margin_bottom\":\"default\",\"margin_top\":\"default\"}},{\"name\":\"Switcher Tabs Top Image Bottom\",\"type\":\"switcher\",\"children\":[{\"type\":\"switcher_item\",\"props\":{\"content\":\"\n\n<h3>Core areas of materials research<\/h3>\n\n\\n\n\n<p>The research fields of materials engineering encompass various focal points that are decisive for industrial applications. Each area concentrates on specific material properties and their behaviour over longer periods. The investigations provide important insights into ageing processes and service life.<\/p>\n\n\\n\n\n<p>A central research area is service-life analysis of plastic pipes under sustained internal pressure loading. In these long-term tests, pipe systems are tested under constant internal pressure over months or years. The results show how materials react to permanent mechanical loading.<\/p>\n\n\\n\n\n<p>The long-term thermal behaviour of electrical insulating materials forms another focal point. These materials must insulate reliably over decades without losing their properties. Temperature changes and continuous thermal loading are simulated in special test chambers.<\/p>\n\n\\n\n\n<p>The following research areas are the focus of current investigations:<\/p>\n\n\\n\n\n<ul>\\n\n\n<li><strong>Time- and temperature-dependent behaviour of plastics:<\/strong> Analysis of material ageing under various climatic conditions to predict service life<\/li>\n\n\\n\n\n<li><strong>Compression set behaviour of elastomeric sealing elements:<\/strong> Long-term tests to assess the recovery capacity and functional reliability of seals<\/li>\n\n\\n\n\n<li><strong>Mechanical damage behaviour of composite materials:<\/strong> Investigation of components under cyclic loading to determine fatigue strength<\/li>\n\n\\n\n\n<li><strong>Ageing investigations through weathering:<\/strong> Simulation of natural and accelerated environmental influences on material surfaces<\/li>\n\n\\n<\/ul>\n\n\\n\n\n<p>These research fields of materials engineering generate data required for product approvals and standardisation procedures. The systematic recording of material degradation enables realistic service-life forecasts. Manufacturers use this information to optimise their products.<\/p>\n\n\",\"image\":\"\",\"link\":\"#\",\"link_text\":\"Button\",\"title\":\"Areas of materials research\"}},{\"type\":\"switcher_item\",\"props\":{\"content\":\"\n\n<h3>Specialised testing methods for special operating conditions<\/h3>\n\n\\n\n\n<p>Special tests address requirements that are not covered by standard procedures. These special tests take individual application scenarios and exceptional load cases into account. Tailored test setups simulate real application conditions with high precision.<\/p>\n\n\\n\n\n<p>The testing of fire behaviour according to DIN 4102-1\/B2 is one of the most important special tests in the construction sector. Materials are exposed to defined flames in order to assess their flammability and fire-spread behaviour. Classification by building material classes determines approvals for various building types.<\/p>\n\n\\n\n\n<p>The electrical properties of plastics and composite materials are determined in specialised laboratories. These tests include the measurement of dielectric strength, surface resistance and dielectric losses. For applications in electrical engineering, these parameters are decisive.<\/p>\n\n\\n\n\n<p>Particularly demanding is the testing of hybrid composites of plastic and concrete. These material combinations unite different mechanical properties and require adapted testing methods. The adhesive strength between the components and the composite behaviour under load are the focus.<\/p>\n\n\\n\n\n<p>Specialised test procedures cover the following areas:<\/p>\n\n\\n\n\n<ul>\\n\n\n<li><strong>Artificial weathering:<\/strong> Accelerated ageing through UV radiation, temperature cycles and moisture loading in climatic chambers<\/li>\n\n\\n\n\n<li><strong>Natural weathering:<\/strong> Long-term outdoor exposure of samples under real environmental conditions to validate accelerated tests<\/li>\n\n\\n\n\n<li><strong>Concept sample production:<\/strong> Manufacture of prototypes to trial new material combinations before series production<\/li>\n\n\\n\n\n<li><strong>Test facilities with fibre variations:<\/strong> Tests of various fibres and fibre blends to optimise composite materials<\/li>\n\n\\n<\/ul>\n\n\\n\n\n<p>These special tests provide insights that are decisive in selecting materials for demanding projects. The combination of laboratory and field tests ensures practical results. Documented long-term experience feeds into design guidelines and materials standards.<\/p>\n\n\\n\n\n<p>The determination of electrical properties is carried out according to standardised measurement procedures using high-precision equipment. Temperature-dependent measurements show how the insulating capacity changes under various operating conditions. These data are indispensable for the design of electrical insulation systems.<\/p>\n\n\",\"image\":\"\",\"link\":\"#\",\"link_text\":\"Button\",\"title\":\"Specialised testing methods\"}}],\"props\":{\"content_column_breakpoint\":\"m\",\"image_align\":\"left\",\"image_grid_breakpoint\":\"m\",\"image_grid_width\":\"auto\",\"image_svg_color\":\"emphasis\",\"image_svg_inline\":true,\"image_vertical_align\":true,\"link_fullwidth\":false,\"link_style\":\"primary\",\"link_target\":true,\"link_text\":\"Read more\",\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"meta_align\":\"below-title\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"nav\":\"tab\",\"nav_align\":\"left\",\"nav_grid_breakpoint\":\"m\",\"nav_grid_width\":\"auto\",\"nav_margin\":\"medium\",\"nav_position\":\"top\",\"show_content\":true,\"show_image\":true,\"show_label\":true,\"show_link\":false,\"show_meta\":true,\"show_thumbnail\":true,\"show_title\":false,\"switcher_animation\":\"fade\",\"switcher_height\":true,\"thumbnav_height\":\"75\",\"thumbnav_svg_color\":\"emphasis\",\"thumbnav_width\":\"100\",\"title_align\":\"top\",\"title_element\":\"h3\",\"title_grid_breakpoint\":\"m\",\"title_grid_width\":\"1-2\"}}]}],\"props\":{\"column_gap\":\"collapse\",\"margin_bottom\":\"small\",\"margin_top\":\"small\"}}],\"name\":\"Grundlagen Ebene 1\"},{\"type\":\"section\",\"props\":{\"header_transparent\":false,\"image_position\":\"center-center\",\"overlap\":false,\"padding_bottom\":\"small\",\"padding_top\":\"small\",\"preserve_color\":false,\"style\":\"muted\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"children\":[{\"type\":\"column\",\"props\":{\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\"},\"children\":[{\"type\":\"headline\",\"props\":{\"content\":\"\n\n<p>Test technology and failure analysis in practice<\/p>\n\n\",\"image_align\":\"left\",\"image_margin\":\"xsmall\",\"title_color\":\"secondary\",\"title_decoration\":\"line\",\"title_element\":\"h2\",\"title_style\":\"h2\"}},{\"type\":\"text\",\"props\":{\"column_breakpoint\":\"m\",\"content\":\"\n\n<p>Daily work with materials requires reliable methods for determining material properties and tracing sources of error. Materials testing and material analysis have become indispensable tools. They secure quality and help to avoid costly errors at an early stage.<\/p>\n\n\\n\n\n<p>Companies use modern investigation methods to test products extensively before series production. Various test procedures that complement each other are employed. The combination of different techniques provides a complete picture of the material properties.<\/p>\n\n\",\"margin_bottom\":\"default\",\"margin_top\":\"default\"}},{\"type\":\"fragment\",\"props\":{\"margin_bottom\":\"default\",\"margin_top\":\"default\"},\"children\":[{\"type\":\"row\",\"props\":{\"column_gap\":\"collapse\",\"divider\":false,\"layout\":\"1-4,3-4\"},\"children\":[{\"type\":\"column\",\"props\":{\"background_color\":\"#FFFFFF\",\"border\":false,\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"width_medium\":\"1-4\"},\"children\":[{\"type\":\"headline\",\"props\":{\"content\":\"Contemporary investigation methods in use\",\"image_align\":\"left\",\"image_margin\":\"xsmall\",\"title_color\":\"secondary\",\"title_decoration\":\"divider\",\"title_element\":\"h3\"}},{\"type\":\"text\",\"props\":{\"column_breakpoint\":\"m\",\"content\":\"\n\n<p><span>Acoustic test rigs with a Kundt's tube enable precise measurements of sound absorption. <\/span><\/p>\n\n\",\"margin_bottom\":\"default\",\"margin_top\":\"default\"}}]},{\"type\":\"column\",\"props\":{\"background_color\":\"#FFFFFF\",\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"width_medium\":\"3-4\"},\"children\":[{\"type\":\"panel\",\"props\":{\"content\":\"\n\n<p>These impedance tubes operate in a frequency range from 50 Hz to 1.6 kHz. Material samples with defined dimensions are examined to characterise their sound-damping properties.<\/p>\n\n\\n\n\n<p>Such measurements serve as orienting tests before more extensive examinations. They help to quickly identify promising material combinations. Only afterwards do standard-compliant tests follow in specially optimised test rooms.<\/p>\n\n\\n\n\n<p>Concept samples are produced on smaller test facilities before large-scale production starts. This sample production includes tests of various fibres or fibre blends. In the process, carded webs are created which are subsequently further processed on hydroentanglement or needle-punching facilities.<\/p>\n\n\\n\n\n<p>Finishing trials on hand samples are carried out using various application methods:<\/p>\n\n\\n\n\n<ul>\\n\n\n<li>Trial padder for uniform impregnation<\/li>\n\n\\n\n\n<li>Foam application for voluminous coatings<\/li>\n\n\\n\n\n<li>Paste application for thicker layers<\/li>\n\n\\n\n\n<li>Printing processes for decorative patterns<\/li>\n\n\\n<\/ul>\n\n\\n\n\n<p>These analysis procedures allow customer-specific configurations. Hydrophobic and oleophobic finishing protects against moisture and oils. Flame-retardant finishing increases safety in critical applications.<\/p>\n\n\\n\n\n<p>Further treatments include stiffening for additional stability, lamination for composite structures and colour application for aesthetic requirements. Each treatment is carefully matched to the later operating conditions.<\/p>\n\n\",\"content_column_breakpoint\":\"m\",\"image_align\":\"top\",\"image_grid_breakpoint\":\"m\",\"image_grid_width\":\"1-2\",\"image_svg_color\":\"emphasis\",\"link_style\":\"default\",\"link_text\":\"Read more\",\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"meta_align\":\"below-title\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"panel_padding\":\"default\",\"panel_style\":\"card-overlay\",\"title_align\":\"top\",\"title_element\":\"h3\",\"title_grid_breakpoint\":\"m\",\"title_grid_width\":\"1-2\",\"title_hover_style\":\"reset\"}}]}]}]},{\"type\":\"fragment\",\"props\":{\"margin_bottom\":\"default\",\"margin_top\":\"default\"},\"children\":[{\"type\":\"row\",\"props\":{\"column_gap\":\"collapse\",\"divider\":false,\"layout\":\"1-4,3-4\"},\"children\":[{\"type\":\"column\",\"props\":{\"background_color\":\"#FFFFFF\",\"border\":false,\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"width_medium\":\"1-4\"},\"children\":[{\"type\":\"headline\",\"props\":{\"content\":\"Uncovering sources of error methodically\",\"image_align\":\"left\",\"image_margin\":\"xsmall\",\"title_color\":\"secondary\",\"title_decoration\":\"divider\",\"title_element\":\"h3\"}},{\"type\":\"text\",\"props\":{\"column_breakpoint\":\"m\",\"content\":\"\n\n<p><span>Failure analysis follows a structured process that begins with the thorough documentation of the damage pattern. <\/span><\/p>\n\n\",\"margin_bottom\":\"default\",\"margin_top\":\"default\"}}]},{\"type\":\"column\",\"props\":{\"background_color\":\"#FFFFFF\",\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"width_medium\":\"3-4\"},\"children\":[{\"type\":\"panel\",\"props\":{\"content\":\"\n\n<p>Experts first record all visible features and external conditions. This initial inventory provides important clues for the further investigation.<\/p>\n\n\\n\n\n<p>The selection of suitable test procedures depends on the type of suspected damage. Mechanical damage is characterised by visual inspection and microscopic examinations. Additional mechanical tests show how the material properties have changed.<\/p>\n\n\\n\n\n<p>Thermal damage requires an analysis of the material behaviour under various temperature conditions. This examines how heat or cold has influenced the structure. Typical changes often appear that point to specific thermal loads.<\/p>\n\n\\n\n\n<p>Chemical degradation is detected through targeted analysis. Changes in the molecular structure or composition provide information about aggressive media. The combination of several analysis procedures enables a clear identification of the cause of damage.<\/p>\n\n\\n\n\n<p>A systematic approach is decisive for reliable results:<\/p>\n\n\\n\n\n<ol>\\n\n\n<li>Document the damage pattern completely<\/li>\n\n\\n\n\n<li>Formulate hypotheses about possible causes<\/li>\n\n\\n\n\n<li>Select appropriate investigation methods<\/li>\n\n\\n\n\n<li>Carry out measurements and collect data<\/li>\n\n\\n\n\n<li>Interpret results and draw conclusions<\/li>\n\n\\n<\/ol>\n\n\\n\n\n<p>This structured failure analysis helps to understand even complex damage mechanisms. It reveals not only the cause but also possible preventive measures.<\/p>\n\n\",\"content_column_breakpoint\":\"m\",\"image_align\":\"top\",\"image_grid_breakpoint\":\"m\",\"image_grid_width\":\"1-2\",\"image_svg_color\":\"emphasis\",\"link_style\":\"default\",\"link_text\":\"Read more\",\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"meta_align\":\"below-title\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"panel_padding\":\"default\",\"panel_style\":\"card-overlay\",\"title_align\":\"top\",\"title_element\":\"h3\",\"title_grid_breakpoint\":\"m\",\"title_grid_width\":\"1-2\",\"title_hover_style\":\"reset\"}}]}]}]},{\"type\":\"fragment\",\"props\":{\"margin_bottom\":\"default\",\"margin_top\":\"default\"},\"children\":[{\"type\":\"row\",\"props\":{\"column_gap\":\"collapse\",\"divider\":false,\"layout\":\"1-4,3-4\"},\"children\":[{\"type\":\"column\",\"props\":{\"background_color\":\"#FFFFFF\",\"border\":false,\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"width_medium\":\"1-4\"},\"children\":[{\"type\":\"headline\",\"props\":{\"content\":\"Systematic recording and assessment\",\"image_align\":\"left\",\"image_margin\":\"xsmall\",\"title_color\":\"secondary\",\"title_decoration\":\"divider\",\"title_element\":\"h3\"}},{\"type\":\"text\",\"props\":{\"column_breakpoint\":\"m\",\"content\":\"\n\n<p>Qualified test reports form the foundation of every professional materials testing and material analysis.<\/p>\n\n\",\"margin_bottom\":\"default\",\"margin_top\":\"default\"}}]},{\"type\":\"column\",\"props\":{\"background_color\":\"#FFFFFF\",\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"width_medium\":\"3-4\"},\"children\":[{\"type\":\"panel\",\"props\":{\"content\":\"\n\n<p>They contain all relevant investigation steps and the results obtained. Transparent documentation creates trust and enables traceability.<\/p>\n\n\\n\n\n<p>Measurement data are prepared graphically to make trends and patterns recognisable. Diagrams and tables simplify the interpretation of complex relationships. Clear visualisations help all parties involved to better understand the material properties.<\/p>\n\n\\n\n\n<p>Commissioned tests are carried out in accordance with specific norms and standards. These references ensure comparability between different investigations. Reproducibility is a central quality criterion in test technology and failure analysis.<\/p>\n\n\\n\n\n<p>The documentation comprises several important components:<\/p>\n\n\\n\n\n<ul>\\n\n\n<li>Detailed description of the test conditions<\/li>\n\n\\n\n\n<li>Equipment used and calibration status<\/li>\n\n\\n\n\n<li>Raw data and calculated characteristic values<\/li>\n\n\\n\n\n<li>Photographic documentation of relevant findings<\/li>\n\n\\n\n\n<li>Interpretation with expert assessment<\/li>\n\n\\n<\/ul>\n\n\\n\n\n<p>Professional recording is indispensable for quality assurance. It also serves as evidence in product liability matters. Careful reports protect all parties involved and document compliance with agreed standards.<\/p>\n\n\\n\n\n<p>Digital archiving enables quick access to earlier investigations. Comparisons with historical data help to identify long-term trends. This knowledge base supports continuous improvement processes and accelerates future failure analysis projects.<\/p>\n\n\",\"content_column_breakpoint\":\"m\",\"image_align\":\"top\",\"image_grid_breakpoint\":\"m\",\"image_grid_width\":\"1-2\",\"image_svg_color\":\"emphasis\",\"link_style\":\"default\",\"link_text\":\"Read more\",\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"meta_align\":\"below-title\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"panel_padding\":\"default\",\"panel_style\":\"card-overlay\",\"title_align\":\"top\",\"title_element\":\"h3\",\"title_grid_breakpoint\":\"m\",\"title_grid_width\":\"1-2\",\"title_hover_style\":\"reset\"}}]}]}]}]}]}],\"name\":\"Sublayout Panel Container Ebene 1\"},{\"type\":\"section\",\"props\":{\"image_position\":\"center-center\",\"padding_bottom\":\"xsmall\",\"style\":\"default\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"children\":[{\"type\":\"column\",\"props\":{\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\"},\"children\":[{\"type\":\"headline\",\"props\":{\"content\":\"Frequently asked questions about research and special testing in materials engineering\",\"image_align\":\"left\",\"image_margin\":\"xsmall\",\"title_element\":\"h2\"}},{\"name\":\"Switcher Tabs Left\",\"type\":\"switcher\",\"children\":[{\"type\":\"switcher_item\",\"props\":{\"content\":\"\n\n<p><span>Current research fields include service-life analyses of plastic pipes under constant internal pressure loading, investigations into the long-term thermal behaviour of electrical insulating materials under various temperature conditions, as well as time- and temperature-dependent behaviour of plastics to predict material ageing. Further focal points are the characterisation of the compression set behaviour of elastomeric sealing elements in long-term tests and the mechanical damage behaviour of composite materials under cyclic loading. These research fields provide important insights for material optimisation and ensure functionality throughout the entire period of use.<\/span><\/p>\n\n\",\"title\":\"What current research fields are there in materials engineering?\"}},{\"type\":\"switcher_item\",\"props\":{\"content\":\"\n\n<div itemscope=\\\"\\\" itemprop=\\\"mainEntity\\\" itemtype=\\\"https:\/\/schema.org\/Question\\\">\\n\n\n<div itemscope=\\\"\\\" itemprop=\\\"acceptedAnswer\\\" itemtype=\\\"https:\/\/schema.org\/Answer\\\">\\n\n\n<div itemprop=\\\"text\\\">Special tests are specialised test procedures for specific requirements that go beyond standard tests. They include ageing investigations through artificial and natural weathering, which simulate how materials react to environmental influences such as UV radiation, moisture and temperature fluctuations. Further special tests involve the determination of fire behaviour according to relevant standards, the determination of the electrical properties of plastics and composite materials, as well as the testing of hybrid composites of plastic and concrete. Concept sample production on test facilities with various fibres and fibre blends serves as an important preliminary stage before large-scale trials and enables tailored solutions for complex questions.<\/div>\n\n\\n<\/div>\n\n\\n<\/div>\n\n\",\"title\":\"What are special tests and what are they needed for?\"}}],\"props\":{\"content_column_breakpoint\":\"m\",\"image_align\":\"top\",\"image_grid_breakpoint\":\"m\",\"image_grid_width\":\"1-2\",\"image_svg_color\":\"emphasis\",\"link_style\":\"default\",\"link_text\":\"Read more\",\"margin_bottom\":\"default\",\"margin_top\":\"default\",\"meta_align\":\"below-title\",\"meta_element\":\"div\",\"meta_style\":\"text-meta\",\"nav\":\"tab\",\"nav_align\":\"left\",\"nav_grid_breakpoint\":\"m\",\"nav_grid_column_gap\":\"large\",\"nav_grid_row_gap\":\"large\",\"nav_grid_width\":\"1-2\",\"nav_position\":\"left\",\"nav_vertical_align\":false,\"show_content\":true,\"show_image\":true,\"show_label\":true,\"show_link\":true,\"show_meta\":true,\"show_thumbnail\":true,\"show_title\":true,\"switcher_animation\":\"fade\",\"switcher_height\":true,\"thumbnav_height\":\"75\",\"thumbnav_svg_color\":\"emphasis\",\"thumbnav_width\":\"100\",\"title_align\":\"top\",\"title_element\":\"h3\",\"title_grid_breakpoint\":\"m\",\"title_grid_width\":\"1-2\",\"title_style\":\"h3\"}}]}]}],\"name\":\"FAQ Ebene 1\"},{\"type\":\"section\",\"props\":{\"image\":\"wp-content\/uploads\/2025\/12\/Dots_right-buttom_hell.png\",\"image_position\":\"bottom-right\",\"image_size\":\"height-1-1\",\"media_focal_point\":\"bottom-right\",\"media_visibility\":\"m\",\"overlap\":false,\"padding_bottom\":\"xsmall\",\"padding_top\":\"small\",\"preserve_color\":false,\"style\":\"secondary\",\"title_breakpoint\":\"xl\",\"title_position\":\"top-left\",\"title_rotation\":\"left\",\"vertical_align\":\"middle\",\"width\":\"default\"},\"children\":[{\"type\":\"row\",\"props\":{\"layout\":\"2-3,1-3\"},\"children\":[{\"type\":\"column\",\"props\":{\"image_position\":\"center-center\",\"position_sticky_breakpoint\":\"m\",\"width_medium\":\"2-3\"},\"children\":[{\"type\":\"headline\",\"props\":{\"content\":\"Our conclusion\\n\",\"image_align\":\"left\",\"image_margin\":\"xsmall\",\"title_element\":\"h1\"}},{\"type\":\"text\",\"props\":{\"column_breakpoint\":\"m\",\"content\":\"\n\n<p>Materials engineering combines scientific research with practical test procedures. Materials testing and material analysis form the foundation for safe and high-performance products in all industrial sectors. The spectrum ranges from standardised standard procedures to specialised special tests.<\/p>\n\n\\n\n\n<p>Modern test technology enables precise statements about material properties and service life. Systematic failure analysis uncovers weak points and provides valuable insights for product development. Various analysis procedures complement each other and create a complete picture of the material properties.<\/p>\n\n\\n\n\n<p>Accredited test laboratories for quality monitoring work according to established standards. They offer comprehensive services from routine tests to highly specialised special investigations. Their expertise supports companies in quality assurance and innovation.<\/p>\n\n\\n\n\n<p>Research and special testing in materials engineering are continually evolving. New requirements for material performance, safety and sustainability drive progress forward. Specialised research fields such as service-life analyses and ageing investigations are gaining increasing importance. Professional documentation and systematic evaluation form the basis for well-founded decisions in development and production.<\/p>\n\n\",\"margin_bottom\":\"default\",\"margin_top\":\"default\"}}]},{\"type\":\"column\",\"props\":{\"image_effect\":\"fixed\",\"image_position\":\"bottom-right\",\"image_size\":\"height-1-1\",\"media_focal_point\":\"bottom-right\",\"position_sticky_breakpoint\":\"m\",\"width_medium\":\"1-3\"}}]}],\"name\":\"Fazit Ebene 1\"}],\"version\":\"5.0.29\"} --><\/p>\n","protected":false},"excerpt":{"rendered":"<p>Research and special testing Specialised testing methods Ma\u00dfgeschneiderte Pr\u00fcfmethoden konzentrieren sich auf kundenspezifische Parameter und bieten L\u00f6sungen f\u00fcr komplexe technische Fragestellungen, die Standardtests nicht abdecken k\u00f6nnen. Die Materialpr\u00fcfung spielt eine zentrale Funktion in der modernen Industrie. Spezialisierte Testger\u00e4te erm\u00f6glichen es, Werkstoffe pr\u00e4zise zu bewerten und ihre Eigenschaften unter realen Bedingungen zu analysieren. Werkstofftechnische Untersuchungen gehen [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"categories":[],"tags":[],"class_list":["post-3093","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/pages\/3093","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/comments?post=3093"}],"version-history":[{"count":0,"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/pages\/3093\/revisions"}],"wp:attachment":[{"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/media?parent=3093"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/categories?post=3093"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.technical-center.de\/en\/wp-json\/wp\/v2\/tags?post=3093"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}