Cyclic hydrodynamic pipeline fracture simulation experiment apparatus and cyclic hydrodynamic pipeline fracture simulation experiment method
A technology of simulating experimental equipment and circulating water, applied in the direction of applying stable tension/pressure to test the strength of materials, etc., can solve the problems of consuming a lot of manpower, material resources, extremely high loading capacity requirements, and dangerous experiment processes, and achieve saving Space, increased utilization, and reduced work risk
Active Publication Date: 2018-11-30
CHINA UNIV OF PETROLEUM (EAST CHINA)
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The small-scale laboratory experiments are based on standard small-scale test pieces, including: three-point bending test pieces, compact tensile test pieces, etc., but because these test pieces are different from the actual pipeline constraints, the measured results are used for pipelines. error; large-scale laboratory experiments mainly include wi
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[0020] like Figure 1 to Figure 6 As shown, the circulating hydrodynamic pipeline fracture simulation experimental device includes: experimental pipe section 1, left connecting pipe section 2A, rear connecting pipe section 2B, right connecting pipe section 2C, electric circulating pump 6, booster system 7, DIC test system 8; Among them, the experimental pipe section 1, the left connecting pipe section 2A, the electric circulating pump 6, the rear connecting pipe section 2B, and the right connecting pipe section 2C are connected end-to-end through the flange 3 to form a closed-loop pipeline system; the booster system 7 is set in The right side is connected to the right side of the pipe section 2C, which transmits fluid into the device and increases the pressure in the device, causing the experimental pipe section 1 to break; the DIC test system 8 is placed on the front side of the experimental pipe section to observe the crack propagation process of the experimental pipe section...
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The invention relates to a cyclic hydrodynamic pipeline fracture simulation experiment apparatus, which comprises an experiment pipe section, a left side connecting pipe section, a rear side connecting pipe section, a right side connecting pipe section, an electric circulation pump, a pressurizing system and a DIC test system, wherein the experiment pipe section, the left side connecting pipe section, the electric circulation pump, the rear side connecting pipe section and the right side connecting pipe section are sequentially connected through flanges in a head-to-tail connection manner, thepressurizing system is arranged on the right side of the right side connecting pipe section, and the DIC test system is placed on the front side of the experiment pipe section. Compared to the apparatus in the prior art, the apparatus of the present invention has the following advantages that the expansion condition of the pipeline crack under the action of the internal fluid can be completely reproduced, the internal pressure and the crack tip state are the same as the actual working conditions, the size error is reduced, the reliability of the data is ensured, the flow rates of different fluids are changed by using the electric circulation pump in the experiment so as to achieve the research on the influence of the flow rate on the pipeline crack expansion, and the fluid pressure is changed by using the electric booster pump in the experiment so as to achieve the research on the influence of the pressure on the pipeline crack expansion.
Description
technical field [0001] The invention belongs to the field of pipeline design and manufacture, and in particular relates to a circulating hydrodynamic pipeline fracture simulation experiment device and an experiment method. Background technique [0002] Fracture toughness is a necessary material parameter to evaluate the structural integrity of pipelines, and its value is often obtained from pipeline fracture experiments. Piping fracture experiments can be divided into small laboratory experiments, large laboratory experiments and actual structural experiments. The small-scale laboratory experiments are based on standard small-scale test pieces, including: three-point bending test pieces, compact tensile test pieces, etc., but because these test pieces are different from the actual pipeline constraints, the measured results are used for pipelines. error; large-scale laboratory experiments mainly include wide-plate tests, which require extremely high loading capacity of the t...
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CPCG01N3/12
Inventor 甄莹曹宇光张士华刘畅宋明孙永泰
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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