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Visual (Air) High Temperature Transformer TA-1601
The product models of the visual high-temperature deformation analyzer include TA-16B01 and TA-Z16B01, which can achieve expansion and contraction tes
Product details
Are these issues regarding the expansion and contraction tests during the material sintering process troubling you?
1. Is blind burning experiment time-consuming and laborious to repeatedly conduct sintering tests?
2. Traditional testing (top rod method) can only measure deformation in a single direction. What about non-uniform changes in the horizontal and vertical directions?
3. Is it difficult to prepare test samples with strict requirements?
4. Is it difficult to determine the baseline before testing, requires calibration, and takes a long preparation time?
Visual high-temperature deformation analyzer, optical non-contact method for measuring the expansion and contraction of material sintering process. The shape, size, and physical state changes of materials during the temperature change process are observed in real-time online, and intuitive and accurate data and graphical reports are provided through intelligent data acquisition and image processing systems. The product performance is comparable to similar international products and is at the leading level in China. Visual high-temperature deformation analyzer is used for material research and manufacturing, which helps to accurately formulate material sintering or heat treatment processes, improve product quality, and reduce production costs.
Accurate temperature control, convenient and fast, highly automated, time-saving and labor-saving
Full process photos, deformation curves, real-time data, comprehensive information: height/width/area
Unique Features:
uHigh temperature test: The maximum operating temperature is 1600 ℃. 50 program segments are used to analyze complex heat treatment processes and simulate the heat treatment and sintering behavior under real industrial conditions
uMeasure and record the sintering shrinkage rate of the material under non-contact sample conditions, and analyze the size changes of the sample, namely the height, width, and area changes of the sample.
uReal time measurement of deformation of regular or irregular shaped samples in the sintering process, which can nondestructive test small, fine, fragile or foam samples
uDetermine the temperature of each characteristic: sintering point, softening point, spheroidization, hemispherical, melting point
uAssist in analyzing the wetting behavior of melt and matrix
uThe experimental data export function allows analysis curves to be exported in image format and raw data to be exported in Excel format, making it convenient for later analysis and processing, such as analyzing multiple sets of data.
Widely used:
1)Given a blank formula, find the optimal sintering process;
2)Given a sintering process, find the most reasonable billet formula;
3)Study the sintering process kinetics of materials;
4)Sintering process control of complex shaped samples;
5)Wetting behavior between melt and matrix;
6)Widely applicable for the analysis and testing of high-temperature physical properties of various materials such as ceramics, glazes, metal materials, glass, refractory materials, minerals, brazing alloys, and semiconductors
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