A Prediction Method of Failure Probability of Brittle Materials under High Temperature Creep State
A brittle material, failure probability technology, applied in the direction of probability network, probability CAD, special data processing applications, etc., can solve the problem of not suitable for evaluating the reliability of brittle materials, and achieve the effect of real prediction results
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Embodiment 1
[0062] Predict the failure probability of glass-ceramic GC-9 material under creep of 50000h at 600℃.
[0063] The failure probability prediction process of glass-ceramic GC-9 material creeping at 600°C for 50,000 hours is as follows: figure 1 The process shown is carried out.
Embodiment 2
[0065] Predict the failure probability of ceramic material YSZ under 650℃ creep for 50000h.
[0066] The failure probability prediction process of the ceramic material YSZ at 650°C for 50,000h creep is as follows: figure 1 The process shown is carried out.
[0067] Embodiment 1 and embodiment 2 are shown in table 1 in the parameter used in calculation process:
[0068] Table 1
[0069]
[0070] Weibull theory needs to consider the weakest chain assumption, that is, the structure is under constant uniaxial load, it is considered to be similar to a stretched N chain, each chain has a different failure strength, when the weakest chain fails, the entire structure fails . Therefore, the strength of a chain is relative to the weakest chain. The failure strength of each chain is different, depending on the internal defects of the sample, that is, "volume effect".
[0071] figure 2 It is a schematic diagram of the relationship between the sample volume size and the defect si...
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