CN203479616U - Fixture for determining bonding strength of low-strength and high-ductility inter-material type-II fracture - Google Patents

Abstract

The utility model discloses a fixture for measuring type II fracture bonding strength between materials with low strength and high ductility, which comprises a rectangular metal block and a rectangular metal plate, the length of the metal block is smaller than the length of the metal plate, and the metal The width of the block is the same as the width of the metal plate, the metal block and the metal plate are fixed by screws, the metal block and the metal plate are aligned in the width direction, and aligned at one end in the long direction, the symmetrical line of the length direction of the metal block and the metal plate Overlapped through holes are arranged on the metal plate, and the part of the metal plate protruding from the metal block is located on the side where the metal block is assembled, and the roughness is 10-15; Fixture suitable for the determination of Mode II fracture bond strength between low strength and high ductility materials with insufficient studies of significant hyperelastic mechanical properties.

Description

Fixture for determining the Mode II fracture bond strength between materials with low strength and high ductility

technical field

The utility model belongs to the field of bonding performance testing of adhesives, in particular to a fixture for measuring the type II fracture bonding strength between materials with low strength and high ductility.

Background technique

Adhesives are widely used in engineering and daily life, and the structure of bonding two materials through adhesives is called a bonded joint. There are many advantages of this connection method of bonded joints, such as thin connection thickness, saving volume; small stress concentration phenomenon; light weight, low cost, etc. Bonded joints are widely used in aerospace, aviation, vehicle manufacturing, shipbuilding and defense industries. Determining the bond strength of the adhesive can predict the service life and failure of the bonded joint, which is of great significance for engineering design, optimal design and avoiding engineering accidents.

Usually, the determination method of bond strength can be carried out by tensile test of single lap joint specimens and double lap joint specimens. However, for bonded materials such as composite materials or rubber with low strength or high ductility, direct application of tensile force will cause damage or excessive deformation of the material, resulting in inability to measure or excessive deviation of results. However, these two types of materials have The application of more and more methods, such as aerospace, is the bonding between the propellant and the cladding in solid rocket motors. The bond strength in this case cannot be directly measured by general methods, so it is necessary to improve the test method and improve the specimen.

Contents of the invention

The purpose of this utility model is to provide a fixture for measuring the type II fracture bond strength between materials with low strength and high ductility, which overcomes the fact that the existing direct bonded single lap shear test piece cannot be applied to Insufficient research on elastic mechanical properties.

The technical solution to realize the purpose of this utility model is:

A fixture for determining the type II fracture bond strength between materials with low strength and high ductility, comprising a rectangular metal block and a rectangular metal plate, the length of the metal block is less than the length of the metal plate, and the width of the metal block is the same as that of the metal The width of the board is the same, the metal block and the metal plate are fixed by screws, the metal block and the metal plate are aligned in the width direction, and aligned at one end in the long direction. The hole, the part of the metal plate protruding from the metal block is located on the side where the metal block is assembled, and the roughness is 10-15.

Compared with the prior art, the utility model has significant advantages:

(1) The type II fracture bonding strength test specimen can be clamped on an ordinary single-week tensile testing machine, which is convenient for clamping and small torque; (2) The fixture and the adhered part are tightly bonded, and the The piece is subjected to longitudinal shear force and only has shear displacement, which can avoid the inconvenience of experiments caused by soft materials or high ductility.

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Description of drawings

Fig. 1 is a side structure schematic diagram of the utility model.

Fig. 2 is a schematic diagram of the front structure of the utility model.

Fig. 3 is a test schematic diagram of the utility model.

Detailed ways

Combining Figure 1 and Figure 2:

The utility model is a fixture for measuring type II fracture bonding strength between materials with low strength and high ductility, which is characterized in that it includes a rectangular metal block and a rectangular metal plate, and the length of the metal block is less than the length of the metal plate , the width of the metal block is the same as the width of the metal plate, and the metal block and the metal plate are fixed by screws. Overlapped through holes are arranged on the symmetry line, and the part of the metal plate protruding from the metal block is located on the side where the metal block is assembled, and the roughness is 10-15. The length of the part of the metal plate protruding from the metal block is greater than the length of the metal block. The metal block and the metal plate are fixed by two or more screws.

Combined with Figure 3:

The test piece for measuring the fracture bonding strength of type II of the utility model includes a fixture 1, an adhesive part a2, an adhesive part a3, a clamping adhesive 4, and an adhesive 5 to be tested.

Fixture 1 is made of metal material and has round holes for clamping to the uniaxial tensile testing machine.

Bonding parts a2 and bonding parts b3 are made of composite materials or rubber, which are characterized by soft materials or high ductility, and cannot be directly loaded with tensile force for experiments.

The strength of the clamping adhesive 4 is much higher than that of the tested adhesive 5

The test piece is a symmetrical body as a whole, with the same thickness and width, and the coaxiality of each component is high.

Example 1:

Combining Figure 1 to Figure 3:

A fixture for determining the type II fracture bond strength between materials with low strength and high ductility, comprising a rectangular metal block and a rectangular metal plate, the length of the metal block is less than the length of the metal plate, and the width of the metal block is the same as that of the metal The width of the board is the same, the metal block and the metal plate are fixed by screws, the metal block and the metal plate are aligned in the width direction, and aligned at one end in the long direction. The hole, the part of the metal plate protruding from the metal block on the side where the metal block is assembled, has a roughness of 13. The length of the metal plate is 90mm, the length of the metal block is 40mm, the height of the metal block is 14mm, and the thickness of the metal plate is 3mm. The metal block and the metal plate are fixed by two screws.

The specific experimental method and process are as follows: the fixture is made of aluminum, and the size of the round hole is guaranteed to be suitable for assembling the uniaxial tensile testing machine during the processing. The adhered part a2 and the adhered part b3 are laminated and bonded by the tested adhesive 5. After curing, the clamping adhesive 4 whose strength is much higher than the tested adhesive 5 is selected to seal the upper and lower surfaces of the laminated part. Bond with two fixtures respectively. Experiments can be carried out after curing. When clamping, ensure that the adhesive to be tested is well protected and not damaged by extrusion, connect the chuck of the testing machine with the test piece in the form of a pin hole, and ensure that the pin can rotate flexibly in the hole, and then the tensile test can be carried out. The length of the metal plate is 90mm, the length of the metal block is 40mm, the height of the metal block is 14mm, the thickness of the metal plate is 3mm, the two bonding materials are 5mm respectively, and the total thickness of the three bonding surfaces is 1mm; High axis.

Practice has proved that the type II fracture strength measured by the test piece is measured by the 25 × 40mm ² laminate bonded by the butylated hydroxyl glue. The relative error between the measured type II fracture strength and the standard value is within 10%. It is feasible to test the type II fracture bond strength of the specimen.

Claims (3)

1. A fixture for measuring the low and high ductility material II type fracture bonding strength, characterized in that: comprising a rectangular metal block and a rectangular metal plate, the length of the metal block is less than the length of the metal plate, The width of the metal block is the same as the width of the metal plate. The metal block and the metal plate are fixed by screws. The metal block and the metal plate are aligned in the width direction and aligned at one end in the long direction. The length direction of the metal block and the metal plate is symmetrical. Overlapped through holes are set on the line, and the part of the metal plate protruding from the metal block is located on the side where the metal block is assembled, and the roughness is 10-15. 2. A fixture for measuring type II fracture bonding strength between materials with low strength and high ductility according to claim 1, characterized in that: the length of the part of the metal plate protruding from the metal block is greater than that of the metal block length. 3. A fixture for measuring type II fracture bond strength between materials with low strength and high ductility according to claim 1, characterized in that: the metal block and the metal plate pass through two or more Screw fixed.

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