CN109765017B - Method for testing transverse shear resistance of small hinge joint hollow slab bridge combined reinforcing member - Google Patents

Abstract

The invention discloses a method for testing transverse shear resistance of a small hinge joint hollow slab bridge combined reinforcing member, which relates to the technical field of bridge reinforcement and comprises the steps of manufacturing a sample piece and testing.

Description

Method for testing transverse shear resistance of small hinge joint hollow slab bridge combined reinforcing member

Technical Field

The invention relates to the technical field of bridge reinforcement, in particular to a method for testing the transverse shear resistance of a small hinge joint hollow slab bridge combined reinforcement member.

Background

The small hinge joint hollow slab is integrated by means of a small hinge joint structure, the small hinge joint is easy to damage and forms single slab stress, and the bridge structure is damaged.

The Chinese invention patent CN103174098B discloses a reinforcing method for treating single plate stress by section steel concrete, which comprises the following steps: a. pressing into U-shaped steel with flanges according to the length and the structure of the single-span bridge, wherein the steel flanges are provided with through holes; b. roughening the surface concrete of the bottom plate on two sides of the hinge joint of the hollow plate, and drilling holes on the bottom plate according to the hole positions of the flanges of the U-shaped steel flanges of the flanges; c. cleaning the drilled hole and implanting an anchoring screw into the through hole; d. anchoring and mounting flange U-shaped steel on the hollow slab; the method is characterized in that the concrete is poured into the hollow slab hinge joint, the hollow slab is reinforced by adopting a section steel concrete reinforcement technology from the aspects of improving the integral stress and the single-beam bearing capacity, the integrity is improved, the transverse load distribution is improved, the bearing capacity of the single beam is improved, the problem that the single-slab stress of the small hinge joint hollow slab is reinforced is solved, but the transverse shear resistance of the reinforced bridge hinge joint hollow slab beam is difficult to judge, and therefore a method for testing the transverse shear resistance is needed to judge the transverse shear resistance.

Disclosure of Invention

The invention aims to provide a method for testing the transverse shear resistance of a small hinge joint hollow slab bridge combined reinforcing member, so as to solve the defects in the prior art.

The transverse shear resistance testing method of the small hinge joint hollow slab bridge combined reinforcing member comprises the following steps:

the method comprises the following steps that firstly, three small hinge joint hollow slab test pieces with the same length are cut from the same small hinge joint hollow slab bridge member, and the three small hinge joint hollow slab test pieces are placed side by side to form two hinge joints;

preparing a U-shaped shear steel bar, wherein at least three resistance strain gauges are arranged on the U-shaped shear steel bar, and the resistance strain gauges are respectively arranged on the outer side edge of the vertical steel bar and the upper side edge of the transverse steel bar of the U-shaped shear steel bar;

implanting U-shaped shear steel bars at the bottom position below the hinge joint, anchoring the flange-provided trapezoidal steel plate at the bottom position below the hinge joint by using anchor bolts, welding stiffening steel bars between the U-shaped shear steel bars and the flange-provided trapezoidal steel plate, pouring concrete into a cavity between the flange-provided trapezoidal steel plate and the small hinge joint hollow plate test piece and at the hinge joint, and forming a test member after the concrete is solidified;

step four, arranging a plurality of anchor bolts at two ends of the upper surface of the small hinge joint hollow slab test piece, preparing a channel steel with the length equal to that of the test member, drilling holes in the channel steel, wherein the number, the positions and the apertures of the drilled holes correspond to the anchor bolts on the upper surface of the small hinge joint hollow slab test piece one by one, and installing the channel steel on the upper surface of the small hinge joint hollow slab test piece by using the anchor bolts;

placing the test members on two supports of a one-thousand-kN beam test system loading platform by using hoisting equipment, wherein the central positions of the two supports are respectively 50cm away from two ends of the test specimen, removing channel steel after the placement of the members to be tested is finished, and cutting off the parts of anchor bolts exposed out of the upper surface of the small hinge seam hollow slab test specimen;

arranging at least four resistance strain gauges on the upper surface of the test member, wherein the positions of two resistance strain gauges are the middle position of the upper surface of the concrete at the hinge joint, and the other two resistance strain gauges are arranged at the front side and the rear side of the middle position of the upper surface of the small hinge joint hollow slab test piece at the middle position; two resistance strain gauges are respectively arranged on the front surface and the rear surface of the testing member and are respectively positioned on the front end surface and the rear end surface of the concrete at the two hinge joints; nine resistance strain gauges are arranged on the lower surface of the testing member, wherein three resistance strain gauges are arranged at the midspan position of the lower surface of the middle small hinge joint hollow slab test piece, the other six resistance strain gauges are arranged at the middle position of the lower surface of each flanged trapezoidal steel plate, and three resistance strain gauges are arranged on the lower surface of each flanged trapezoidal steel plate;

step seven, respectively arranging a dial indicator displacement meter on the lower surface of each of the three small hinge joint hollow slab test pieces, and respectively arranging the dial indicator displacement meters at the midspan position of the test member and the two supports;

step eight, a two-point loading mode is adopted for test loading, a jack is used for applying two-point loads downwards at the midspan position above the test member through a load distribution steel beam and a square steel bar, a pressure sensor is arranged on the jack to accurately control the loading in the test process, and the two-point loading procedure is as follows: step loading to destroy, namely, firstly, taking 13kN as a first step to step loading to a test component to send out abnormal sound, and then, slowly loading to destroy;

and step nine, in the loading process, the strain condition of the test member is collected and recorded by a static strain collecting system, wherein the strain of the U-shaped shear steel bar, the trapezoid steel plate with the flange and the concrete is measured by a resistance strain gauge, and the displacement of the span center and the fulcrum of the test member is measured by a dial indicator displacement meter, so that all transverse shear resistance performance parameters of the small hinge joint hollow slab bridge combined reinforcing member are obtained.

Preferably, the length of the small hinge joint hollow slab test piece in the first step is 50 cm.

Preferably, in the third step, at least three U-shaped shear steel bars are arranged below each hinge joint.

Preferably, four anchor bolts are arranged on the upper surface of the small hinge joint hollow slab test piece in the fourth step.

Preferably, in the sixth step, the resistance strain gauge on the upper surface of the test member is installed at a position avoiding the anchor bolt position on the upper surface of the small hinge joint hollow slab test piece.

The invention has the advantages that: the small hinge joint hollow slab bridge combined reinforcing member is subjected to miniaturization treatment, the aim of accurately testing the member in a laboratory is fulfilled, in the testing process, a static strain acquisition system is adopted to record the strain conditions of a U-shaped shear steel bar, a trapezoid steel plate with a flange and concrete, and simultaneously the displacement of the span center and a fulcrum of the testing member is recorded, so that all transverse shear resistance parameters of the small hinge joint hollow slab bridge combined reinforcing member are obtained, and the testing method is simple, convenient and rapid and has strong operability.

Drawings

FIG. 1 is a schematic diagram of the arrangement of a small hinge joint hollow slab test piece according to an embodiment of the invention.

Fig. 2 is a schematic layout view of a resistance strain gauge of a U-shaped shear steel bar according to an embodiment of the present invention.

FIG. 3 is a schematic illustration of reinforcement of a test member according to an embodiment of the present invention.

Fig. 4 is a schematic view illustrating installation of a channel steel of the test member according to the embodiment of the present invention.

FIG. 5 is a schematic view of a test member holder placement in accordance with an embodiment of the present invention.

FIG. 6 is a schematic view of the arrangement of strain gauges on the upper surface of a test member according to an embodiment of the present invention.

FIG. 7 is a schematic diagram of the arrangement of front and back surface strain gauges of a test member according to an embodiment of the present invention.

FIG. 8 is a schematic view of the arrangement of strain gauges on the lower surface of the testing member according to the embodiment of the present invention.

FIG. 9 is a schematic loading diagram of a test member according to an embodiment of the present invention.

The test method comprises the following steps of 1-small hinge joint hollow slab test piece, 2-hinge joint, 3-U-shaped shear steel bars, 4-resistance strain gauge, 5-anchor bolts, 6-flange-contained trapezoidal steel plate, 7-stiffening steel bars, 8-concrete, 9-channel steel, 10-support, 11-dial indicator displacement meter, 12-jack, 13-load distribution steel beam and 14-square steel bar.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1

As shown in fig. 1 to 9, the method for testing the transverse shear resistance of the small hinge joint hollow slab bridge combined reinforcing member comprises the following steps:

step one, as shown in figure 1, three small hinge joint hollow slab test pieces 1 with the same length are cut from the same small hinge joint hollow slab bridge member, and the three small hinge joint hollow slab test pieces 1 are placed side by side to form two hinge joints 2;

step two, as shown in fig. 2, preparing a U-shaped shear steel bar 3, and arranging at least three resistance strain gauges 4 on the U-shaped shear steel bar 3, wherein the resistance strain gauges 4 are respectively arranged on the outer side edge of the vertical steel bar and the upper side edge of the transverse steel bar of the U-shaped shear steel bar 3;

implanting a U-shaped shear steel bar 3 at the bottom position below the hinge joint 2, anchoring a flange-provided trapezoidal steel plate 6 at the bottom position below the hinge joint 2 by using an anchor bolt 5, welding a stiffening steel bar 7 between the U-shaped shear steel bar 3 and the flange-provided trapezoidal steel plate 6, pouring concrete 8 into a cavity between the flange-provided trapezoidal steel plate 6 and the small hinge joint hollow slab test piece 1 and at the hinge joint 2, and forming a test member after the concrete 8 is solidified;

step four, as shown in fig. 4, arranging a plurality of anchor bolts 5 at two ends of the upper surface of the small hinge joint hollow slab test piece 1, preparing a channel steel 9 with the length equal to that of the test member, drilling holes in the channel steel 9, wherein the number, the positions and the hole diameters of the drilled holes correspond to the anchor bolts 5 on the upper surface of the small hinge joint hollow slab test piece 1 one by one, and installing the channel steel 9 on the upper surface of the small hinge joint hollow slab test piece 1 by using the anchor bolts 5;

step five, as shown in fig. 5, a hoisting device is utilized to place a testing member on a support 10 of a one-thousand-kN beam testing system loading platform, the number of the supports 10 is two, the center positions of the supports are respectively 50cm away from two ends of a testing test piece, a channel steel 9 is removed after the placement of the testing member is finished, and the part of the anchor bolt 5 exposed out of the upper surface of the small hinge joint hollow slab test piece 1 is cut off;

step six, as shown in fig. 6-8, at least four resistance strain gauges 4 are arranged on the upper surface of the testing member, wherein the positions of two resistance strain gauges 4 are the middle position of the upper surface of the concrete 8 at the hinge joint 2, and the other two resistance strain gauges 4 are arranged on the front side and the rear side of the middle position of the upper surface of the small hinge joint hollow slab test piece 1 at the middle position; two resistance strain gauges 4 are respectively arranged on the front surface and the rear surface of the testing member and are respectively positioned on the front end surface and the rear end surface of the concrete 8 at the two hinge joints 2; nine resistance strain gages 4 are arranged on the lower surface of the testing member, wherein three resistance strain gages 4 are arranged at the midspan position of the lower surface of the middle small hinge joint hollow slab test piece 1, the other six resistance strain gages 4 are arranged at the middle position of the lower surface of each flanged trapezoidal steel plate 6, and three resistance strain gages 4 are arranged on the lower surface of each flanged trapezoidal steel plate 6;

seventhly, as shown in fig. 9, respectively arranging a dial indicator displacement meter 11 on the lower surface of each of the three small hinge joint hollow slab test pieces 1, and respectively arranging the dial indicator displacement meters at the midspan position of the test member and the two supports 10;

step eight, as shown in fig. 9, the test loading adopts a two-point loading mode, a jack 12 is used at the midspan position above the test member to apply two-point loads downwards through a load distribution steel beam 13 and a square steel bar 14, a pressure sensor is arranged on the jack 12 to accurately control the loading in the test process, and the two-point loading procedure is as follows: step loading to destroy, namely, firstly, taking 13kN as a first step to step loading to a test component to send out abnormal sound, and then, slowly loading to destroy;

and step nine, in the loading process, acquiring and recording the strain condition of the test member by using a static strain acquisition system, wherein the strain of the U-shaped shear steel bar 3, the trapezoid steel plate with the flange 6 and the concrete 8 is measured by using a resistance strain gauge 4, and the displacement of the midspan and the fulcrum of the test member is measured by using a dial indicator displacement meter 11, so that various transverse shear resistance performance parameters of the small hinge joint hollow slab bridge combined reinforcing member, such as midspan deflection, dislocation quantity at two sides of the hinge joint 2 and strain performance parameters, are obtained.

In this embodiment, the length of the small hinge-joint hollow slab test piece 1 in the first step is 50 cm. In the third step, at least three U-shaped shear steel bars 3 are arranged below each hinge joint 2. And four anchor bolts 5 are arranged on the upper surface of the small hinge joint hollow slab test piece 1 in the fourth step.

Example 2

As shown in fig. 1 to 9, the method for testing the transverse shear resistance of the small hinge joint hollow slab bridge combined reinforcing member comprises the following steps:

step one, as shown in figure 1, three small hinge joint hollow slab test pieces 1 with the same length are cut from the same small hinge joint hollow slab bridge member, and the three small hinge joint hollow slab test pieces 1 are placed side by side to form two hinge joints 2;

step two, as shown in fig. 2, preparing a U-shaped shear steel bar 3, and arranging at least three resistance strain gauges 4 on the U-shaped shear steel bar 3, wherein the resistance strain gauges 4 are respectively arranged on the outer side edge of the vertical steel bar and the upper side edge of the transverse steel bar of the U-shaped shear steel bar 3;

implanting a U-shaped shear steel bar 3 at the bottom position below the hinge joint 2, anchoring a flange-provided trapezoidal steel plate 6 at the bottom position below the hinge joint 2 by using an anchor bolt 5, welding a stiffening steel bar 7 between the U-shaped shear steel bar 3 and the flange-provided trapezoidal steel plate 6, pouring concrete 8 into a cavity between the flange-provided trapezoidal steel plate 6 and the small hinge joint hollow slab test piece 1 and at the hinge joint 2, and forming a test member after the concrete 8 is solidified;

step four, as shown in fig. 4, arranging a plurality of anchor bolts 5 at two ends of the upper surface of the small hinge joint hollow slab test piece 1, preparing a channel steel 9 with the length equal to that of the test member, drilling holes in the channel steel 9, wherein the number, the positions and the hole diameters of the drilled holes correspond to the anchor bolts 5 on the upper surface of the small hinge joint hollow slab test piece 1 one by one, and installing the channel steel 9 on the upper surface of the small hinge joint hollow slab test piece 1 by using the anchor bolts 5;

step five, as shown in fig. 5, a hoisting device is utilized to place a testing member on a support 10 of a one-thousand-kN beam testing system loading platform, the number of the supports 10 is two, the center positions of the supports are respectively 50cm away from two ends of a testing test piece, a channel steel 9 is removed after the placement of the testing member is finished, and the part of the anchor bolt 5 exposed out of the upper surface of the small hinge joint hollow slab test piece 1 is cut off;

step six, as shown in fig. 6-8, at least four resistance strain gauges 4 are arranged on the upper surface of the testing member, wherein the positions of two resistance strain gauges 4 are the middle position of the upper surface of the concrete 8 at the hinge joint 2, and the other two resistance strain gauges 4 are arranged on the front side and the rear side of the middle position of the upper surface of the small hinge joint hollow slab test piece 1 at the middle position; two resistance strain gauges 4 are respectively arranged on the front surface and the rear surface of the testing member and are respectively positioned on the front end surface and the rear end surface of the concrete 8 at the two hinge joints 2; nine resistance strain gages 4 are arranged on the lower surface of the testing member, wherein three resistance strain gages 4 are arranged at the midspan position of the lower surface of the middle small hinge joint hollow slab test piece 1, the other six resistance strain gages 4 are arranged at the middle position of the lower surface of each flanged trapezoidal steel plate 6, and three resistance strain gages 4 are arranged on the lower surface of each flanged trapezoidal steel plate 6;

seventhly, as shown in fig. 9, respectively arranging a dial indicator displacement meter 11 on the lower surface of each of the three small hinge joint hollow slab test pieces 1, and respectively arranging the dial indicator displacement meters at the midspan position of the test member and the two supports 10;

step eight, as shown in fig. 9, the test loading adopts a two-point loading mode, a jack 12 is used at the midspan position above the test member to apply two-point loads downwards through a load distribution steel beam 13 and a square steel bar 14, a pressure sensor is arranged on the jack 12 to accurately control the loading in the test process, and the two-point loading procedure is as follows: step loading to destroy, namely, firstly, taking 13kN as a first step to step loading to a test component to send out abnormal sound, and then, slowly loading to destroy;

and step nine, in the loading process, acquiring and recording the strain condition of the test member by using a static strain acquisition system, wherein the strain of the U-shaped shear steel bar 3, the trapezoid steel plate with the flange 6 and the concrete 8 is measured by using a resistance strain gauge 4, and the displacement of the midspan and the fulcrum of the test member is measured by using a dial indicator displacement meter 11, so that various transverse shear resistance performance parameters of the small hinge joint hollow slab bridge combined reinforcing member, such as midspan deflection, dislocation quantity at two sides of the hinge joint 2 and strain performance parameters, are obtained.

In this embodiment, the length of the small hinge-joint hollow slab test piece 1 in the first step is 50 cm. In the third step, at least three U-shaped shear steel bars 3 are arranged below each hinge joint 2. And four anchor bolts 5 are arranged on the upper surface of the small hinge joint hollow slab test piece 1 in the fourth step.

In addition, in the sixth step, the resistance strain gauge 4 on the upper surface of the testing member is arranged at a position avoiding the position of the anchor bolt 5 on the upper surface of the small hinge joint hollow slab test piece 1. And the static strain acquisition system in the ninth step adopts a static strain acquisition system with the model of TDS-530.

Based on the above, the small hinge joint hollow slab bridge combined reinforcement member is subjected to miniaturization treatment, the aim of accurately testing the member in a laboratory is achieved, in the testing process, the static strain acquisition system is adopted to record the strain conditions of the U-shaped shear steel bar 3, the trapezoid steel plate 6 with the flange and the concrete 8, meanwhile, the displacement of the span and the fulcrum of the testing member is recorded, various transverse shear resistance parameters of the small hinge joint hollow slab bridge combined reinforcement member are obtained, and the testing method is simple, convenient and rapid and has strong operability.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims (1)

1. The transverse shear resistance testing method of the small hinge joint hollow slab bridge combined reinforcing member is characterized by comprising the following steps of:

the method comprises the following steps that firstly, three small hinge joint hollow slab test pieces (1) with the same length are cut from the same small hinge joint hollow slab bridge member, the length of each small hinge joint hollow slab test piece (1) is 50cm, and the three small hinge joint hollow slab test pieces (1) are placed side by side to form two hinge joints (2);

preparing a U-shaped shear steel bar (3), wherein at least three resistance strain gauges (4) are arranged on the U-shaped shear steel bar (3), and the resistance strain gauges (4) are respectively arranged on the outer side edge of the vertical steel bar and the upper side edge of the transverse steel bar of the U-shaped shear steel bar (3);

implanting at least 3U-shaped shear steel bars (3) at the bottom position below the hinge joint (2), anchoring the flange-provided trapezoidal steel plate (6) at the bottom position below the hinge joint (2) by using an anchor bolt (5), welding stiffening steel bars (7) between the U-shaped shear steel bars (3) and the flange-provided trapezoidal steel plate (6), pouring concrete (8) in a cavity between the flange-provided trapezoidal steel plate (6) and the small hinge joint hollow plate test piece (1) and at the hinge joint (2), and forming a test component after the concrete (8) is solidified;

step four, arranging 4 anchor bolts (5) at two ends of the upper surface of the small hinge joint hollow slab test piece (1), preparing a channel steel (9) with the length equal to that of the test member, drilling holes in the channel steel (9), wherein the number, the positions and the hole diameters of the drilled holes correspond to the anchor bolts (5) on the upper surface of the small hinge joint hollow slab test piece (1) one by one, and installing the channel steel (9) on the upper surface of the small hinge joint hollow slab test piece (1) by using the anchor bolts (5);

placing the test member on a support (10) of a one-thousand-kN beam test system loading platform by using hoisting equipment, wherein the two supports (10) are provided, the central positions of the two supports are respectively 50cm away from the two ends of the test specimen, removing a channel steel (9) after the placement of the member to be tested is finished, and cutting off the part of the anchor bolt (5) exposed out of the upper surface of the small hinge joint hollow slab test specimen (1);

arranging at least four resistance strain gauges (4) on the upper surface of the test member, wherein the positions of two resistance strain gauges (4) are the middle position of the upper surface of the concrete (8) at the hinge joint (2), and the other two resistance strain gauges (4) are arranged on the front side and the rear side of the middle position of the upper surface of the small hinge joint hollow slab test piece (1) at the middle position; two resistance strain gauges (4) are respectively arranged on the front surface and the rear surface of the testing member and are respectively positioned on the front end surface and the rear end surface of the concrete (8) at the two hinge joints (2); nine resistance strain gauges (4) are arranged on the lower surface of the testing member, wherein three resistance strain gauges (4) are arranged at the midspan position of the lower surface of the small hinge joint hollow slab test piece (1) in the middle, the other six resistance strain gauges (4) are arranged at the middle position of the lower surface of the flanged trapezoidal steel plate (6), three resistance strain gauges (4) are arranged on the lower surface of each flanged trapezoidal steel plate (6), and the mounting positions of the resistance strain gauges (4) on the upper surface of the testing member avoid the positions of anchor bolts (5) on the upper surface of the small hinge joint hollow slab test piece (1);

seventhly, respectively arranging a dial indicator displacement meter (11) on the lower surface of each of the three small hinge joint hollow slab test pieces (1) and respectively arranging the dial indicator displacement meters at the midspan position of the test member and the two supports (10);

step eight, a two-point loading mode is adopted for test loading, a jack (12) is used at the midspan position above the test member to apply two-point loads downwards through a load distribution steel beam (13) and a square steel bar (14), a pressure sensor is arranged on the jack (12) to accurately control the loading in the test process, and the two-point loading procedure is as follows: step loading to destroy, namely, firstly, taking 13kN as a first step to step loading to a test component to send out abnormal sound, and then, slowly loading to destroy;

and ninthly, in the loading process, the strain condition of the test member is collected and recorded by a static strain collection system with the model of TDS-530, wherein the strain of the U-shaped shear steel bar (3), the trapezoid steel plate (6) with the flange and the concrete (8) is measured by a resistance strain gauge (4), and the displacement of the span and the fulcrum of the test member is measured by a dial indicator displacement meter (11), so that all transverse shear resistance parameters of the small hinge joint hollow slab bridge combined reinforcing member are obtained.

Images