With the continuous development of micro nano technology, the accuracy and sensitivity of mechanical testing are also constantly improving. In this context, the SW-F series force probes have emerged as an important breakthrough in the field of micro mechanical testing. This probe is based on the SW series soft tungsten probe, and its unique design enables it to accurately calibrate the lateral stiffness coefficient k. By adjusting the diameter and length of the tungsten wire, it achieves precise acquisition of the force displacement curve, providing new technical support for scientific research and industrial applications.

The biggest feature of the SW-F series force probe is its ability to adjust the lateral stiffness coefficient k of the probe to meet different experimental requirements. The lateral stiffness coefficient k directly affects the results of mechanical testing. By finely adjusting the diameter and length of the tungsten wire, researchers can precisely control the stiffness of the probe according to actual needs. This feature makes the SW-F series force probes highly flexible in mechanical experiments, capable of meeting the needs of different test samples and experimental conditions.

In practical applications, the SW-F series force probes have demonstrated excellent performance. Combined with in-situ experiments, the probe can obtain real-time force displacement curves, thereby helping researchers analyze the mechanical behavior of the test sample more accurately. At the micro nano scale, the relationship between force and displacement is extremely complex. The SW-F series force probes ensure high-precision measurement of force displacement curves through precise mechanical calibration, which is of great significance for research in materials science, nanotechnology, biomedical and other fields.

Especially in the research of micro nano materials, the application of SW-F series force probes is extremely extensive. For small-sized materials, traditional mechanical testing methods are often difficult to cope with. However, the SW-F series force probes, with their micro nano scale design, can accurately measure the response of small samples under external forces, helping researchers to gain a deeper understanding of the mechanical properties of materials. In addition, the SW-F series force probes also have broad prospects for application in the biomedical field. With the continuous deepening of biomechanical research, the SW-F series force probes can provide high-precision mechanical testing data, helping to make breakthroughs in medical research.

In summary, the SW-F series force probe achieves high precision and sensitivity in mechanical testing by accurately calibrating the lateral stiffness coefficient k. The innovative design of this force probe not only promotes the advancement of micro nano technology, but also provides more accurate experimental tools for scientific research. In the future, it will play an important role in more fields and promote the continuous development of science and technology.