Microhardness Test Method: Measuring Hardness of Small and Thin Materials

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What Is the Microhardness Test Method - Micro Material UK

The microhardness test method is a technique used to measure the hardness of small or thin materials, coatings, and microstructures by applying a small, precisely controlled load with an indenter. This method is especially useful for testing materials with small surface areas, fine microstructures, or thin films, where conventional hardness tests (like Rockwell or Brinell) might not be applicable.

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Localised heating at 700°C on a NanoTest Xtreme nanomechanical test system - high temprature- nanotesting- micro materials uk - Buy Nanotesting instrument

Localised heating at 700°C on a NanoTest Xtreme nanomechanical test system 


Inside a NanoTest Xtreme nanomechanical test system, capable of testing at high  temperatures,  upto and exceeding 1000 °C , under high vacuum conditions


Inside a NanoTest Xtreme nanomechanical test system, capable of testing at high  temperatures,  upto and exceeding 1000 °C , under high vacuum conditions - Micro Material UK buy
high temperature nanoindentation testing at temperatures over 900 °C using the NanoText Xtreme instrument supplied by Micro Materials Ltd Order

Image showing high temperature nanoindentation testing at temperatures over 900 °C using the NanoText Xtreme instrument supplied by Micro Materials Ltd


Image taken by Adrian Harris of Micro Materials Ltd, showing localised heating at 950 °C on an Xtreme system

localised heating at 950 °C on an Xtreme system Nano Testing Instrument Micro Materials UK Buy Order
heating at  750  °C on an Xtreme system in use at the University of Oxford - Micro Material UK - Order Mechanical Test Instrument

Image taken by Andrew Bird (Micro Materials Ltd), showing localised heating at 

750  °C on an Xtreme system in use at the University of Oxford 

Nanomechanical testing to 1000 °C

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High temperature micro-scratch and impact

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High temperature creep resistance

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Nuclear materials

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To further enhance your experience and understanding, we invite you to check out the following pages on our website that we believe are essential to your journey with us:

  1. High-Temperature Nanoindentation Testing for Advanced Material Characterization
  2. Advanced Nano Scratch and Wear Testing for Coatings and Materials
  3. Nano-Impact Testing for Advanced Material Performance in High-Stress Applications

These pages offer valuable insights and resources to help you achieve your goals.