Precision nano-indentation test device

Abstract

The invention relates to a precise nanoindentation test device and belongs to the field of precise scientific instruments. The precise nanoindentation test device mainly comprises a precise press-in driving unit, a load signal and displacement signal detection unit and an objective table, wherein the precise press-in driving unit consists of a voice coil motor, a connecting piece, a guide rail and a sliding block; the voice coil motor and the guide rail are arranged on a pedestal; a precise mechanical sensor for detecting pressure of a diamond pressing head pressed into a material is arrangedon the pedestal through a side plate I; a precise displacement sensor for detecting diamond pressing head press-in depth is arranged on the pedestal through a side plate II; the objective table is arranged on the precise mechanical sensor; the diamond pressing head is arranged on the connecting plate; and the connecting plate is assembled on the sliding block through bolts. The precise nanoindentation test device has the advantages of simple structure, convenience for processing, small volume, high positioning precision, quick response and capacity of observing the deformation process and theinjury mechanism of the material in the press-in process in situ under an electron microscope so as to intuitively know the micronano mechanical property of the material.

Description

technical field [0001] The invention relates to the field of precision scientific instruments integrating opto-mechanical electronics, in particular to a precision nano-indentation testing device. Background technique [0002] The nano-indentation / scratch testing technology mainly obtains the load-indentation depth relationship curve by continuously recording the load and indentation depth, and finally obtains parameters such as hardness and elastic modulus of the tested material by analyzing the curve. The search for the position of the indentation and the measurement of the residual area of ​​the indentation are avoided during the test, which can greatly reduce the error of the test. The indentation load and indentation depth data are obtained through the indentation test, and then the corresponding load-depth relationship curve is drawn. Through the appropriate mechanical model and derivation, rich mechanical parameter information can be obtained from the curve analys...

AI Technical Summary

Problems solved by technology

[0004] There are many studies using indentation technology to determine the mechanical properties of materials. The indentation devices designed by foreign researchers, such as the indentation device designed by Bangert and Wagendristel, can be placed in the vacuum chamber of the scanning electron microscope, but they have not In-situ monitoring of the actual indentation process, in fact, they designed the instrument to overcome various constraints, such as positioning accuracy and detection of indentation marks under small loads (50μN–20mN)

Its main defect is the lack of load and displacement sensors, so the relationship between the mechanical and mechanical properties of the material and the evolution of the microstructure cannot be obtained; M.A.Wall of the Lawrence Livermore National Laboratory (LLNL) and the

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