JP2006194599A - Peeling testing machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem wherein a composite sheet-like material is not always peeled at 180°, when the tack of a test target comprising a rigid material inferior in flexibility or a fragile material is measured by a 180° peeling method, and the adhesive force between the materials of the test target cannot be measured accurately and quantitatively. <P>SOLUTION: This peel testing machine is constituted of a base stand 110 for fixing one layer of the composite sheet-like material, a drawing-up part for drawing up the other layer of the composite sheet-like material in a direction vertical to the base stand 110, a drive part for driving the pull-up part and a measuring means 105 for measuring the adhesion force between the layers of the composite sheet-like material, to stably measure the adhesion force between the layers of the composite sheet-like material. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a peel test apparatus, and more particularly, to a peel test apparatus capable of quantitatively evaluating the adhesion between material layers of a composite sheet-like material bonded with different materials.

  As a peel test method for evaluating the reliability of conventional tape materials, JIS standard (JIS Z0237) has been established as an evaluation test item for measuring adhesive strength (see Non-Patent Document 1). In this measurement method, 180 degree peeling adhesive force, inclined ball tack, and holding force are described as an index of adhesive force.

  As a method for peeling a composite sheet material in which two or more layers of different kinds of materials are bonded together, the conventional 180-degree peeling adhesive strength is evaluated. A conventional 180-degree peel adhesive strength measuring machine is shown in FIG. In FIG. 2, a composite sheet-like material 207, which is a test object, has one surface fixed to a stainless steel base 210, and one end of the opposite surface of the composite sheet-like material 207 is reversed 180 degrees. Fix with 206. The chuck 206 is connected to the motor 201 via a pulley 203 and a pulley 202 by a wire 204. The stress when the motor 201 rotates and the chuck 206 is pulled up is measured by a stress sensor 205 placed between the motor 201 and the chuck 206.

Accordingly, by rotating the motor 201, the chuck 206 is pulled, the composite sheet material 207 is pulled up, and the adhesion force at the interface can be measured by reading the value of the stress sensor 205.
Japanese Industrial Standards JIS Z0237

  However, when the adhesive strength of a composite sheet material such as a metal material or a ceramic porous body with poor flexibility is measured by the 180-degree peeling method, the composite sheet-shaped material connected by the chuck during the peeling test is always 180 degrees. It was not necessarily peeled off, but it was supposed to measure and process the stress in consideration of the force required for deformation and destruction of the composite sheet material.

  In order to solve the above-described conventional problems, the peel test apparatus of the present invention measures the adhesion between layers of a composite sheet-like material in which layers made of different materials (for example, A layer and B layer) are pasted together. A peeling test apparatus, wherein a base for fixing one layer (A layer) of the composite sheet material and a second layer (B layer) of the composite sheet material in a direction perpendicular to the base It is characterized by comprising a pulling section for pulling up, a driving section for driving the pulling section, and a measuring means for measuring the adhesion between the layers of the composite sheet material.

  Also, when performing a peel test, the lifting portion and the base are mechanically connected to a wire and a pulley, for example, so that the peel angle is always a right angle, and have a function of interlocking. Is preferred.

  By using this peeling test apparatus, it is possible to quantitatively evaluate the adhesion between the materials of the composite sheet material obtained by bonding different kinds of materials.

At this time, after measuring the composite sheet material, it is preferable to remove the composite sheet material and subtract the stress due to the operation of the measuring apparatus itself.

  According to the present invention, it is possible to quantitatively evaluate the adhesion between materials of a composite sheet-like material even if it is a composite sheet-like material such as a metal material or a ceramic porous body with poor flexibility. It has the effect of.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  FIG. 1 shows a peel test apparatus according to an embodiment of the present invention. In FIG. 1, 110 is a base that can be slid horizontally, and a composite sheet-like material, which is a specimen to be tested, is fixed with an adhesive 114 such as a double-sided tape, and one end thereof is fixed with a chuck 115. As the adhesive 114, epoxy resin, putty, glue, solder, brazing, putty, and sushi can be used in addition to the double-sided tape. In addition to using an adhesive, means such as welding or welding (ultrasound, electricity, high frequency, acetylene) can also be used.

  The base 110 is provided with a bearing portion 109 so that it can be easily slid horizontally, and is connected to a fixed portion 112 using a spring 111 so that a force acts evenly during sliding.

  The lifting base 106 is connected to the base 110 via a pulley 108 with a wire 107. The pulling unit 106 is connected to a pulley 102 provided in the motor 101 using a wire 104.

  The measurement of the adhesion force is measured by a stress sensor 105 which is a measuring means placed between the motor 101 and the lifting platform 106 as stress when the motor 101 rotates and the lifting platform 106 moves.

  By rotating the motor 101, the pulley 103 rotates, the pulling portion 106 is pulled, and the composite sheet-like material is pulled up by the chuck, and a peeling test can be performed.

  Since the wire 107 pulls the base 110 during this pulling up, the composite sheet material is always peeled at a right angle.

  By performing the pull-up test only with the present measurement test apparatus from which the composite sheet material has been removed after the measurement, the force component when only the base slides can be measured.

  By subtracting the resistance component when the base is slid from the result of the peel test, it is possible to accurately measure the adhesion between the layers of the composite sheet material.

  Using this peel test apparatus, a peel test between a copper foil used as a current collector and an active material layer was evaluated using a negative electrode plate of 18650HGS type manufactured by Matsushita Battery Industrial Co., Ltd. The results are shown in FIG.

  As shown in FIG. 3, when the peel test is performed using the peel test apparatus of the present invention, it can be seen that the adhesion between the layers can be measured stably.

FIG. 2 shows an outline of the 180 ° peel test apparatus described in Non-Patent Document 1. In FIG.
A test object shown in 07 is fixed to the base 209 using an adhesive 208.

  One end of the device under test 207 is fixed to a chuck 206 connected to a lifting portion, and is connected to a pulley 202 connected to a motor 201 via a stress sensor 205 and a pulley 203 by a wire 204.

  Here, by rotating the motor 201, the chuck 206 is pulled up, and the device under test 206 is pulled up, and therefore, a composite material peeling test was evaluated. The results are shown in FIG.

  From the results of FIG. 4, it can be seen that the stress during pulling always changes throughout the measurement in the test method of the comparative example. From the results of FIGS. 1 and 2, it can be seen that the peel test apparatus of the present invention can stably measure the adhesion between the layers of the composite sheet material through the test.

  In the present embodiment, the lifting portion referred to in the claims is constituted by a lifting base 106 and a chuck 115. Similarly, the drive unit is configured by a motor 101, a pulley 102, a pulley 103, and a wire 104. As a measuring means, a stress sensor 105 is used.

  In the present embodiment, only the configuration in which the base and the lifting portion move in conjunction with each other is shown, but it goes without saying that the base may be configured to move so that only the lifting portion is kept vertical while being fixed. Absent.

  The peel test apparatus of the present invention proposes a peel test apparatus that serves as an index of adhesion between layers of a composite sheet-like material in which different kinds of materials are bonded together, and the material is poor in flexibility, such as a metal material or ceramic Even if it is formed of a composite sheet material such as a porous body, it is possible to quantitatively evaluate the adhesion of the material plate.

Figure of peel measurement using the peel test apparatus shown in the embodiment of the present invention Figure of peel measurement using conventional peel test equipment The figure which shows the peeling test result using the peeling test apparatus shown to embodiment of this invention The figure which shows the peeling test result using the conventional peeling test equipment

Explanation of symbols

101 Motor 102 Pulley 103 Pulley 104 Wire 105 Stress sensor (measuring means)
DESCRIPTION OF SYMBOLS 106 Lift stand 107 Wire 108 Pulley 109 Bearing part 110 Base 111 Spring 112 Fixing part 113 Test object 114 Adhesive 115 Chuck 201 Motor 202 Pulley 203 Pulley 204 Wire 205 Stress sensor 206 Chuck 207 Test object 209 Double-sided tape 210 Base

Claims (3)

A peeling test apparatus for measuring the adhesion between layers of a composite sheet material in which layers of different materials are pasted,
A base for fixing one layer of the composite sheet-like material, a lifting part for pulling up the other layer of the composite sheet-like material in a direction perpendicular to the base, and a driving part for driving the lifting part, A peeling test apparatus comprising a measuring means for measuring an adhesion force between layers of the composite sheet material.   2. The peeling according to claim 1, wherein the base is slidable in the horizontal direction, and the slide distance of the base in the horizontal direction is equal to the distance of lifting the lifting portion perpendicular to the base. Test equipment. The peeling test apparatus according to claim 1, wherein the base and the pulling unit are interlocked by physical connection or electrical control.

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