KR20070046468A - A extensometer for large diameter in low temparuture - Google Patents

Abstract

The present invention relates to a measuring device capable of accurately and easily measuring a strain rate of a tensile specimen of a large diameter test and a toughness test which require a low temperature test.

The present invention relates to an apparatus for accurately measuring the strain rate of a tensile specimen of a large diameter and a specimen in measuring the mechanical properties of the material at a low temperature using a UTM or the like, The upper and lower gauge jig including the pressing means for resiliently pressing and fixing the specimen in accordance with the reduction of the cross section of the tensile specimen, the chamber for the low temperature test, and the guide installed in the tensile specimen, So that the elongation strain of the tensile specimen can be accurately measured.

Temperature test, tensile specimen, strain, strain gauge, chamber,

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a large-

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional structural view of an embodiment according to the present invention;

FIG. 2 shows a test scene using the prototype of FIG.

Fig. 3 is a cross-

Description of the Related Art

101: low temperature test chamber 102: tensile specimen

103, 103 ': upper end pointing jig 104, 104': guide

105: chamber support sleeve 106: chamber support

107: chamber sealing hinge 108: chamber sealing button

109: chamber handle 110: LVDT support

111: LVDT 112: Cable fixing part

113: cable 114: chamber air outlet

401, 401 ': a pointing point jig specimen compression section

The present invention relates to an apparatus for measuring the strain of a large-diameter tensile specimen. More particularly, the present invention relates to a method for measuring the tensile strain of a large-diameter tensile specimen, which can accurately and accurately measure the strain of a large-diameter and a long-tensile tensile specimen, To a measuring device.

The tensile test for measuring the mechanical properties of the material at room temperature and the strain at the room temperature can be easily measured by using an extensometer or the like. In low temperature test, however, Because it was installed in the chamber, the strain could not be measured because the extensometer was not installed. However, the strain gauge was attached to the surface of the specimen, and the strain was measured at a level to calculate strain.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

An object of the present invention is to provide a chamber for low temperature testing and to measure a strain rate of a tensile specimen,

A guide is provided in the chamber and the specimen, and the upper and lower gauges are vertically aligned by vertically parallel holding means of the gauging jig in such a manner that the upper and lower gauges are vertically aligned Parallel movements of the test specimens and to derive measurements from the mean values of the two LVDT measurements on the left and right sides of the test specimens to improve the test accuracy of the elongation of the tensile specimens and to facilitate the test work. And a measuring device.

The apparatus for measuring a strain rate of a tensile specimen at low temperature according to the present invention is for measuring the mechanical properties of a material during a tensile test at a low temperature using UTM or the like.

A cylindrical low temperature test chamber 101;

The test specimens 102 are installed in the low temperature test chamber 101 and are fixed to the upper and lower portions of the gauge section of the tensile specimen 102 to be measured, The upper and lower centering jigs 103 and 103 ', which are composed of opposed two semicylindrical blocks,

Guides 104 and 104 ', which are cylindrical sleeves, which measure the deformation rate of the tensile specimen 102 that moves in parallel in the vertical direction and slip between the upper and lower barrel jigs 103 and 103';

Vertically parallel holding means slidably installed in the chamber outside the upper and lower centering jigs 103; And

And a pair of LVDT (Linear Variable Differential Transformer) which is provided outside the low-temperature test chamber 101 and is connected to the upper and lower barrier gauge jigs 103 and 103 ' .

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, one embodiment of the apparatus for measuring the strain rate of a tensile specimen during the low-temperature test according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view showing a configuration of a device for measuring a strain rate of a tensile specimen during a low-temperature test according to an embodiment of the present invention. FIG. 2 is a photograph of a scene for testing using a prototype of FIG. 1, Sectional view.

1 to 3, the apparatus for measuring a strain rate of a tensile specimen during a low temperature test according to an embodiment of the present invention includes a cylindrical low temperature test chamber 101, The upper and lower centering jigs 103 and 103 ', each consisting of two semicylindrical blocks opposed to each other, are fixed to the upper and lower portions of the barrel section of the tensile specimen 102 to be measured for strain, Point jig specimen compression units 401 and 401 'as a pressing means for pressingly fixing the specimen 102 to the specimen in accordance with the reduction of the cross section.

Guide pieces 104 and 104 ', which are cylindrical sleeves, are fixed to the tensile specimen 102 fitted inside the upper and lower centering jigs 103 and 103'. At the middle of these guides 104 and 104 ', there is a bolt device which can be fixed to the tensile specimen 102.

The upper and lower bar-shaped pointing jigs 103 and 103 'have a cylindrical hole on the upper and lower surfaces of the low-temperature test chamber 101, and cylindrical upper and lower bar-shaped pointing jigs 103 and 103' As shown in Fig. In order to measure the strain rate, an LVDT support 110 is provided at the end of the upper and lower centering jigs 103 and 103 'protruding out of the low-temperature test chamber 101 to connect the LVDT 111.

The operation principle of the apparatus for measuring the tensile specimen strain at the time of the low-temperature test according to the present invention having the above-described structure is as follows.

A chamber support 101 capable of supporting the weight of the low temperature test chamber 101 in the middle of the tensile specimen 102 inside the chamber 101 for testing the tensile specimen 102 at a low temperature in a universal testing machine The sleeve 105 is fitted and fixed using the insert bolt 115 using the chamber support 106. [ Test specimens with mechanical joints do not fit support sleeves because mechanical joints may serve as support sleeves. The chamber supporting sleeve 105 is installed in the middle of the tensile specimen 102 and the guide 104.104 'is put on the tensile specimen 102 in consideration of the installation positions of the upper and lower core points jigs 103 and 103' And the upper and lower centering jigs 103 and 103 'are fixed to the tensile specimen 102 using the insertion bolts. The tensile specimen 102 is attached to the tensile specimen 102, and the specimen is stored in a refrigerator or the like at a prescribed temperature for a predetermined time, which is a condition required by the test standard.

The chamber support 106 is installed inside the chamber 101 so as to support the weight of the low temperature test chamber 101 during the tensile test inside the low temperature test chamber 101 while the specimen is kept at a low temperature. After the prescribed time has elapsed, the tensile specimen 102 is taken out of the low-temperature apparatus and placed in the low-temperature test chamber 101 against the chamber support sleeve 105 using the chamber support 106 and the low-temperature test chamber 101 is sealed do. The low temperature test chamber 101 is sealed using a chamber sealing hinge 107 and a chamber sealing button 108 so that the chamber supporting rods 106 are installed on the chamber supporting sleeve 105.

After the tensile specimen 102 is joined to the low temperature chamber 101 and then the tensile specimen 102 protruded from both ends of the low temperature chamber 101 is installed in the UTM and subjected to a tensile test, And the upper and lower centering jigs 103 and 103 'coupled to the tensile specimen 102 together with the guides 104 and 104' provided in the tensile specimen 102 are moved in the vertical direction along the cylindrical hole of the chamber 101, And the strain rate is accurately measured by the LVDT support 110 installed at the end of the upper and lower centering jigs 103 and 103 'and the LVDT 111 installed at the LVDT support.

Reference numeral 112 denotes a cable fixing portion, 113 a cable, and 114 a chamber air outlet.

It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. It is not.

As described above, in the low temperature test according to the present invention, the apparatus for measuring the strain rate of a tensile specimen is provided with a chamber for low temperature test and a length strain rate of the tensile specimen. The guide is installed in the chamber and the specimen, The upper and lower gauges are vertically and parallelly moved by the vertically parallel holding means of the gauge jig so as to vertically and parallelly move the upper and lower gauge jigs, The present invention provides an apparatus for measuring the elongation of a tensile specimen during a low temperature test, which improves the accuracy of elongation measurement of a large diameter and a real tensile specimen at low temperature by deriving a measured value from the average value of two LVDT measurements. Accordingly, it is an advantageous technique to improve the accuracy in measurement of the strain rate of the tensile specimen and to facilitate the test work.

Claims (4)

A cylindrical low temperature test chamber 101; The test specimens 102 are installed in the low temperature test chamber 101 and are fixed to the upper and lower portions of the gauge section of the tensile specimen 102 to be measured, The upper and lower centering jigs 103 and 103 ', which are composed of opposed two semicylindrical blocks, Guides 104 and 104 ', which are cylindrical sleeves, which measure the deformation rate of the tensile specimen 102 that moves in parallel in the vertical direction and slip between the upper and lower barrel jigs 103 and 103'; Vertically parallel holding means slidably installed in the chamber outside the upper and lower centering jigs 103; And And a pair of LVDTs provided outside the low-temperature test chamber 101 and connected to the upper and lower bar-shaped pointing jigs 103 and 103 ', respectively. . The apparatus of claim 1, wherein a bolt device capable of being fixed to the tensile specimen (102) is formed at an intermediate portion of the guide (104, 104 '). 2. The apparatus according to claim 1, wherein the upper and lower bar-shaped pointing jigs (103, 103 ') have a cylindrical bore in upper and lower surfaces of the low-temperature test chamber (101), and cylindrical upper and lower bar- Wherein the elastic member is sandwiched by a flexible fitting member. The apparatus according to claim 1, wherein a chamber support sleeve (105) capable of supporting the weight of the low temperature test chamber (101) is fitted in the middle of the tensile specimen (102) inside the chamber And is fixed by an insertion bolt (115).

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