Battery analyzer EDX9000B spectrometer is used for rapid analysis of nickel iron, nickel drilling manganese content of ternary batteries
With the mixed situation of living standards and the increasing aggravation of environmental problems, new self-generated vehicles have become the focus of attention with its advantages of environment, economy and convenience. Among them, dualcell battery, as one of the most potential battery technologies for electric vehicles, has become the mainstream power of electric vehicles.
Battery analyzer EDX9000B spectrometer is used for rapid analysis of ternary carp battery Ni Fe Mn, Ni drill content

The synthesis of Fe oxide materials is a crucial step, however, different Fe oxide sizes, star shapes and chemical compositions can lead to different battery capacity and lifetime. Therefore, it is of great significance to correctly determine the content of Fe in ternary batteries for the performance and life of the protective bubble: the determination of Fe content in ternary batteries can provide appropriate material selection and quality control indicators for battery manufacturers. The appropriate synthesis process of ferrocyanide can effectively improve the battery energy density and the life cycle, and reduce the contention of the battery. For the quality inspection bureau, the timely and quasi measurement of the amount of iron emission can provide the quality of electricity: the determination of the amount of iron emission is also of great significance to the safety of the state. The charging and discharging imbalance will not occur in the case of overcharge and overdischarge, resulting in excessive heat gas and fire in the battery. Therefore, according to the content of the Australian iron in the battery can reduce the problem of uneven discharge, thereby improving the safety of the battery. It is of great significance for the sustainable development of the electric vehicle industry to correctly measure the amount of iron reduction in the ternary battery. The electric vehicle is regarded as the representative of the automobile revolution, and the development of the ternary battery, as the leading or most potential battery technology of the electric vehicle, effectively promotes the coordinated development of the automobile industry and the ring industry. Further development of the electric vehicle industry. In short, it is of great significance to correctly determine the amount of iron and steel growth in the three Yuan think electric power for the quality inspection of the safety of the character of the electric vehicle and the sustainable development of the company. It is believed that through our joint efforts and exploration, Sanyuanzhou technology will inject more powerful power into the development of the electric vehicle industry on the basis of continuous innovation. Nickel junction is also one of the main materials of Sanyuanli battery, which has an important impact on the performance and stability of Sanyuanli battery. Therefore, scientific and accurate determination of sanyuanli battery nickel drill live content, For the protection of the safety, stability and performance of the ternary battery is also of great significance: the accurate determination of the amount of two-element electricity can protect the safety of the battery, one element of electricity in the process of east power, if the content of the law is not low, the density of the power state will not be used. It is easy to cause gas production inside the battery, forming dangerous conditions such as swelling and explosion. Therefore, the accurate detection of nickel junction active content of ternary batteries can ensure the safe operation of batteries and avoid current safety accidents. The accurate determination of the suitable amount of continuous drilling of ternary batteries is helpful to improve the performance of batteries. The performance of batteries is closely related to the quality and proportion of materials, and nickel junction is one of the important materials that affect the performance of ternary batteries. By determining the content of the ternary battery, we can understand whether the quality of the battery material is up to the standard, so as to determine whether the performance of the battery is stable. In addition, through the adjustment of the proportion of materials inside the battery, the performance of the battery can be further improved, its energy density and cycle life can be improved, and more efficient energy storage and release can be achieved. The scientific and accurate determination of the suitable amount of nickel junction of the binary diffusion battery also has the significance of environmental protection. As a kind of new flat battery, the environmental protection has been widely recognized, but in the production process, the chemical substances used by the single yuan only know the ring letter. In order to learn the content of the material in the battery, not only can ensure the stability of the battery performance, but also can minimize the chemical waste in the battery production process, reduce the damage to the environment, so as to realize environmental protection and sustainable development. In short, the scientific determination of ternary battery nickel junction fierce content, It is important to ensure the safety of batteries, improve their pre-performance and realize environmental protection. Strengthening the scientific research and technical application of nickel and diamond rust content of ternary potassium batteries will help to promote the further development and growth of electric vehicles and energy storage fields.

Battery analyzer EDX9000B spectrometer is used for rapid analysis of ternary carp battery Ni Fe Mn, Ni drill content

ESI the fly think EDX9000B spectrometer can be accurate to three yuan nickel iron manganese lithium-ion batteries, nickel cobalt manganese content were determined, as a high performance desktop energy dispersive X-ray fluorescence (EDXRF) element analyzer, the new EDX9000B configured with the most advanced basic parameters based on Windows the FP of the algorithm (Fundamental parameter) software, and is equipped with the most optimal high-performance hardware, to meet customer demand for complex ore sample element analysis. Whether customer’s sample is solid, alloys, powder, liquid, or slurry, EDX9000B can easily implement from sodium (Na) to uranium (U) nondestructive quantitative and qualitative analysis of elements. Faster analysis speed, more accurate test results, a more stable performance of instrument, making EDX9000B become one of the best tool to the customer for elemental analysis.

EDX – 9000 – b for durability, easy operation and high cost performance. Its significant advantages have few or no sample preparation, the whole condition analysis, one to three minutes the result; Powerful FP basic parameters (algorithm) based on Windows software to reduce the influence of matrix effect; 50 kV light control and electric refrigeration SDD silicon drift detector not only have excellent short-term repeatability and reproducibility for a long time, and have excellent element peak resolution; Can simultaneously elements and oxides composition analysis; Multiple instrument hardware protection system and can go through the software to the real-time monitoring, put the instrument work more stable, more secure; Special design of light path and vacuum system has greatly increased the lighter elements (Na, Mg, Al, Si, P) testing sensitivity and accuracy, at the same time in the test 1 CD, Pb, Cr, Hg, Br, Cl, and other elements of the sensitivity and stability have obviously improved; Friendly user interface, customizable analysis report, can be a key to print test report, including the results of the analysis, the sample information and spectral information and sample image; Eight kinds of optical path collimating system, according to different sample size automatically switches, can also test samples of different position and averaging, reduce the error of the sample inhomogeneity caused; Hd built-in camera, clearly show that the testing instrument of sample parts, etc.

Battery analyzer EDX9000B spectrometer is used for rapid analysis of ternary carp battery Ni Fe Mn, Ni drill content

“EDX – 9000 test software with powerful functions and friendly interface

The interface is clear and easy to use. The measurement can start after selecting the method and entering the sample identification information
Software kernel-basic parameter method (FP) can easily analyze unknown samples
FDX9000B software is pre-installed and data calibration is carried out. Customers can run the software and start testing immediately. No need to repeat the calibration every day, powerful software capabilities can be provided
> One key to initialize the instrument, the matrix is automatically matched
Automatic qualitative, semi-quantitative and quantitative analysis, different sample test spectrum can be real-time comparison
> Spectral processing and correction, remove double peak and escape peak interference, reduce the influence of element absorption enhancement effect
Spectral background deduction can effectively improve the detection accuracy of trace elements
The measurement results can be refreshed in real time
A simple flow bar wizard helps users create new custom calibration curves
> Customizable test report, one key print
Provide a variety of data access interface, compatible with LIMS laboratory management system
The following is the test report of EDX9000B spectrometer used to test the nickel iron and manganese content of ternary potassium battery:

Battery analyzer EDX9000B spectrometer is used for rapid analysis of ternary carp battery Ni Fe Mn, Ni drill content