新拓三维XTDIC-FLC板材成形极限测量系统，基于数字图像相关DIC技术，通过非接触、全场、高精度、可视化的测量方式，可快速、精确地测定FLC曲线，观测板料冲压成形过程中的材料流动、应变演化与缺陷萌生（颈缩、起皱、破裂），有助于分析材料成形行为、精准预测失效、优化冲压工艺参数。

XTOP3D's independently developed XTDIC three-dimensional full-field strain measurement system can obtain the ultimate strain under different strain paths through computational analysis, thereby producing a complete forming limit FLC curve, clearly and intuitively judging whether there is excessive deformation in the part area, and providing data support for optimizing the forming process and verifying the simulation.

The XTOP3D XTDIC-FLC three-dimensional sheet metal forming limit measurement system, combined with a sheet metal forming test device, can quickly complete the surface strain distribution of thin-walled specimens throughout the forming process, analyze two sets of data: primary strain and secondary strain, and perform quadratic curve fitting on each set of data. The fitting points can be used to output FLC curve data.

The XTOP3D XTDIC-FLC three-dimensional sheet metal forming limit measurement system, combined with a sheet metal forming test device, can quickly complete the surface strain distribution of thin-walled specimens throughout the forming process, analyze two sets of data: primary strain and secondary strain, and perform quadratic curve fitting on each set of data. The fitting points can be used to output FLC curves/FLD data.

XTOP3D's independently developed XTSM sheet metal forming grid strain measurement system uses a high-resolution measuring head to capture images of stamping parts. By calculating the spatial coordinates of small dots prepared from multiple photos, it can obtain the deformation and strain distribution of automotive sheet metal, the thickness changes of hot spots and sheets, calculate the three-dimensional deformation of the sheet metal, and generate a forming limit diagram.

The XTDIC-FLC sheet metal forming limit measurement system is used to introduce the sheet metal forming limit measurement process. In conjunction with the sheet metal forming and cupping test machine, it sprays disordered speckles on the specimen to collect sequential video images of sheet metal deformation during the cupping test. Based on grid strain analysis, digital image correlation measurement and other technologies, the limit strain is directly obtained, and the forming limit curve FLC is generated to establish a forming limit diagram.

The XTOP3D XTDIC-FLC three-dimensional sheet metal forming limit measurement system, based on digital image correlation (DIC) technology, works with sheet metal forming and cupping testing machines. It directly obtains the limit strain based on grid strain analysis and generates the limit curve FLC, enabling rapid determination of the forming limit curve of FLC materials.

The XTOP3D XTDIC-FLC sheet metal forming limit measurement system, based on digital image correlation (DIC) technology, enables online, real-time, full-area measurement, more accurately captures limit moments and positions, analyzes strain values ​​during the forming process, improves test efficiency and accuracy, and provides detailed and accurate data support for simulation, forming processes, and more.

The XTDIC-VG video extensometer measurement system utilizes Digital Image Correlation (DIC) technology, employs a single-camera optical system design, and employs a sub-pixel displacement measurement algorithm to provide high-precision, real-time measurement of transverse and longitudinal strain during tensile testing. Available in 60, 120, and 240mm field of view models, the XTDIC-VG video extensometer can be adjusted to suit the material deformation being measured.

The XTDIC-VG video extensometer is easy to calibrate, eliminating the need for perfect test specimen alignment. It communicates with a variety of testing machines, acquiring force information and outputting strain data. Developed based on DIC technology, it is suitable for testing conditions such as large deformation, three-dimensional deformation, thermal deformation, and in-cavity deformation, and is particularly well-suited for material characterization during tensile testing.

XTDIC-VG视频引伸计,适用于脆性或薄材料采集数据，超大变形试件，保证大视野空间范围内测量精度，面对不同类型实验机，可联机通讯与使用通畅，适用于不同材料应用，确保应变测量实验精度。