Thin films and coatings (from a few nm to about 1 μm thick) need to be optimised both in the mechanical properties and tribological performance.Typically, this is done with a combination of indentation and scratch tests.Conventional scratch test conditions are not appropriate for these types ofmaterials as they were developed for testing thicker coatings. Instead thenano-scratch & wear module can provide what is needed. Figure 1: Ramped scratches to 500 mN show brittle fracture of 1.5 μm TiFeN films on Si at high load.

薄膜和涂層(從幾納米到約1微米厚)在機械性能和摩擦學(xué)性能方面都需要優(yōu)化。通常，這是通過壓痕和劃痕測試的組合來完成的。傳統(tǒng)的劃痕試驗條件不適用于這些類型的材料，因為它們是為測試較厚的涂層而開發(fā)的。相反，納米劃痕和磨損模塊可以提供所需的東西。

圖1:500 mN的傾斜劃痕顯示，在高負載下，Si上1.5 μ m的TiFeN薄膜脆性斷裂。

How it works

The sample to be tested is moved perpendicular to the scratch probe whilstthe contact is either held constant or ramped at a user-defined rate.Throughout the test the probe penetration depth and tangential (frictional)load are continuously monitored. Single and multi-pass tests are possible. Multi-pass tests allow the investigation of nano-wear and micro-wear.

The Nano-Scratch & Wear module has found many applications in sectorsas diverse as optical, microelectronics, polymer/biomaterial, and tribologicalcoatings.  It is available as a stand alone instrument (nano-scratchtester) or as an option for the NanoTest Vantage platform.

運作原理

待測樣品垂直于劃痕探針移動，同時接觸保持恒定或以用戶定義的速率傾斜。在整個測試過程中，探針穿透深度和切向(摩擦)載荷被持續(xù)監(jiān)測。可以進行單次和多次測試。多道次試驗可以研究納米磨損和微磨損。

納米劃痕和磨損模塊在光學(xué)、微電子、聚合物/生物材料和摩擦學(xué)涂層等領(lǐng)域得到了廣泛應(yīng)用。它可以作為一個獨立的儀器(納米劃痕儀)或作為NanoTest Vantage平臺的一個選項。

 Ramped scratch, corrected for baseline sampletopograp