1. 纳米压痕技术 纳米压痕技术(英:Nanoindentation),也称深度敏感压痕技术(英:Depth-Sensing Indentation, DSI),是最简单的测试材料 … baike.baidu.com|基于24个网页 2. 奈米压痕 因此在薄膜微/奈米机械性质方面,我们藉由奈米压痕(nanoindentation)试验机求得薄膜杨氏模数及硬度的方法,并以理论计算 … ...
Discover benefits of nanoindentation for material characterization, including measurement techniques, advanced software, real-world simulations, and varied applications.
Alemnis nanoindentation products are based on years of experience in the design of scientific instruments and piezoelectric transducers conducted in joint projects between EPFL (Swiss Federal Institute of Technology, Lausanne) and Empa (Swiss Federal Laboratories of Material Science and Technology, Thun). ...
During the nanoindentation process, a force is applied by the transducer and the probe displacement is continuously measured to produce a traditional force vs. displacement curve. The resulting force vs. displacement curve serves as the 'mechanical fingerprint' of the material, from which quantitative...
Nanoindentation is a nanoscale means to distinguish the phase composition of matrix and ITZ characteristics of UHPC. He et al. (2022b) used recycled concrete powder to replace 15 %–30 % of SF to prepare UHPC and study its nanoscale features, as shown in Fig. 19. The results showed that...
Nanoindentation is a method for testing the hardness and related mechanical properties of materials, facilitated by high-precision instrumentation in the nanometer scale, as well as analytical and computational algorithms for result evaluation.Theory and Application History The origin of the indentation meth...
Nanoindentation has become a commonplace tool for the measurement of mechanical properties at small scales, but may have even greater importance as a technique for experimental studies of fundamental materials physics. With high-resolution load-displacement data, discrete events including dislocation source...
During a nanoindentation measurement, the position, i.e., the penetration depth of the tip on the loading head, is being measured alongside the applied loading force. The tip is typically made of hard materials, often diamond, with a specialized geometry. After precise calibration, users can ca...
Nanoindentation(纳米压痕技术)(也称深度敏感压痕技术:Depth-Sensing Indentation,DSI)是最简单的测试材料力学性能的方法之一,此种新型的先进表征手段能定量地提供有关材料力学性能方面的许多丰富有用的信息,如弹性模量(Elastic Modulus)、硬度(Hardness)、断裂韧性(Fracture Toughness)、应变硬化效应(Strain Hardening ...
Provides insight on major advances in theoretical understanding of nanoindentation from the last six years Expands on applications by including material sourced directly from major players in the field Presents the theory and practical knowledge required for work with a nanoindentation instrument, while pro...