A novel method-nanoindentation was proposed, which is a new technology to measure material properties.
种崭新的材料测试技术—纳米压痕技术应运而生。
It is difficulty to calculate subentry of uncertainty in nanoindentation because there are many factors.
纳米压痕试验中对测试结果产生影响的因素很多,如果计算各个分项相当困难。
This review mainly discussed the principle of nanoindentation and its current applications in wood science field.
文中对纳米压痕技术的测试原理及其在木材科学中的应用现状进行了较为详细的论述。
On the basis of fundamental nanoindentation theory, nanoindentation of single-crystal copper has been researched.
基于纳米压痕理论方法,对单晶铜进行了纳米压痕试验。
Nanoindentation experiments were made on single crystal aluminium, and load-depth loading and unloading curves were obtained.
利用纳米压痕技术对单晶铝作压痕试验,获得载荷-压深的加载和卸载曲线。
The tensile strength, modulus of elasticity(MOE) and hardness of Pinus massoniana fibers were determined by using zero-span tension and nanoindentation technique.
研究了人工林马尾松的纤维零距抗张强度、细胞壁的纵向弹性模量和硬度等力学指标。
In this master thesis, the stress-strain relationships of thin films were measured by nanoindentation combined with dimensional analysis and finite element method.
本文以纳米压痕法结合量纲分析及有限元方法来测量薄膜材料的应力-应变关系。
The nanoindentation technology is an advanced measurement of material's micro and nano hardness, which can satisfy the detection of surface mechanical properties of micro parts.
纳米压痕技术是一种先进的材料微纳米硬度测量方法,可以满足对微小零件表面力学性能的检测。
In situ imaging nanoindentation was used to characterize the differences in longitudinal Modulus of Elasticity (MOE) and hardness of different cell wall layers of softwood tracheids.
该文利用原位成像纳米压痕技术研究了针叶材管胞细胞壁不同壁层之间在纵向弹性模量(MOE)和硬度方面的差异。
In this paper, the mechanical properties of the amorphous ribbon are investigated by nanoindentation, and the obtained results are compared with the measuring results of tensile test.
文章采用纳米压痕测量技术研究其机械性能,并且与拉伸试验测得的结果进行了比较。
Nanoindentation has been widely used to evaluate and test material properties, we utilize the unloading curves of an indentation test to extract the hardness and reduced modulus of the material.
纳米压痕技术广泛用于材料力学性能的评估与测试,利用压痕的加卸载曲线可分析得到材料的硬度和折合模量等力学参数。
Nanoindentation has been widely used to evaluate and test material properties, we utilize the unloading curves of an indentation test to extract the hardness and reduced modulus of the material.
纳米压痕技术广泛用于材料力学性能的评估与测试,利用压痕的加卸载曲线可分析得到材料的硬度和折合模量等力学参数。
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