Protection material hot-cold pulse fatigue resistance test apparatus

A technology for protective materials and fatigue testing, applied in measuring devices, analyzing materials, using mechanical devices, etc., can solve problems such as unsatisfactory experimental equipment, and achieve fast cold and heat exchange time, high temperature control accuracy, and good temperature uniformity. Effect

Inactive Publication Date: 2013-08-21
INST OF METAL RESEARCH - CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In the existing test technology, the experimental equipment for high-low temperature cold and hot rapid cycle is not ideal. There

Method used

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  • Protection material hot-cold pulse fatigue resistance test apparatus
  • Protection material hot-cold pulse fatigue resistance test apparatus
  • Protection material hot-cold pulse fatigue resistance test apparatus

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] Such as figure 1 , 2 shows the coating anti-high frequency thermal pulse fatigue test device, which includes an electronic control system 1, a lifting and rotating device 2, two special sample racks: sample rack A3 and sample rack B4, two test tanks: high temperature Tank 7 and low temperature tank 8.

[0039] The sample rack A3 and the sample rack B4 are respectively vertically fixed on the left and right supports of the lifting and rotating device. The electronic control system 1 automatically controls the cylinder lifting and rotating device 2 to drive the sample holder A3 and the sample holder B4 of the two installed coating samples (6) to move up, down and counterclockwise high-frequency rotation. The low temperature tank 8 and the high temperature tank 7 are located vertically below the two sample racks.

[0040] Work process description:

[0041] Start the heating and condensing device before the experiment, then set the temperature of the high temperature tank to 95℃...

Embodiment 2

[0043] A protective material anti-cold and heat pulse fatigue test device. The protective material anti-cold and heat pulse fatigue test device specifically includes the following structures: an electric control system 1 and a lifting and rotating device 2, two sample racks, namely sample rack A3 and samples Frame B4, test tank; among them: the electric control system 1 and the lifting and rotating device 2 are connected as a whole; the lifting and rotating device 2 with the rotation axis in the vertical direction is fixedly provided with a sample rack, and the sample rack is fixedly arranged for placing samples 6 sample slot 5;

[0044] The test tank for holding the sample 6 is arranged below the rotation path of the sample holder outside the rotation axis of the lifting and rotating device 2.

[0045] The protective material anti-cold and heat pulse fatigue test device of this embodiment also includes the following content requirements:

[0046] There are two groups of the sample ...

Embodiment 3

[0057] The content of this embodiment is basically the same as that of embodiment 2, and the difference lies in:

[0058] Two sample slots 5 are fixedly arranged on the sample rack A3 and the sample rack B4.

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Abstract

A protection material hot-cold pulse fatigue resistance test apparatus includes an electric control system (1), an elevating rotation device (2), sample supports and test tanks wherein the electric control system (1) and the elevating rotation device (2) are connected into one; the sample supports are fixedly arranged on the elevating rotation device (2) having a rotary axis arranged in the vertical direction, and sample slots (5) used for disposing a sample (6) are fixedly arranged on the sample supports; and the test tanks used for disposing the sample (6) are arranged below the rotation paths of the sample supports outside the rotary axis of the elevating rotation device (2). The apparatus has the advantages of high automation degree, good temperature stability and excellent technological effects.

Description

Technical field [0001] The invention relates to the technical field of structural design and application of a protective material rapid evaluation experimental device, and in particular provides a protective material anti-cold and heat pulse fatigue test device. Background technique [0002] In the prior art, the pipeline heat exchange and transportation systems of oil, gas, and water-liquid systems include pump bodies, valves and other fittings. In order to prevent corrosion and abrasion of the inner wall transportation medium, lining protective materials are generally used for protection. Because the temperature of the liquid medium conveyed inside the heat exchange system generally fluctuates in the range of -25℃~100℃, the short-term temperature difference reaches 20℃~100℃, and the rapid cold and heat alternating temperature change cycle is an environment where the temperature change is ≥10 seconds. There is an urgent need to develop a test device that can simulate the above-m...

Claims

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Application Information

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IPC IPC(8): G01N17/00G01N19/04
Inventor 陆卫中高英郭旭李京张立新史杰智李晓东刘宝昌
Owner INST OF METAL RESEARCH - CHINESE ACAD OF SCI
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