CN109024314A - A kind of underwater steel component carbon fiber maintenance reinforcement method - Google Patents

Abstract

The invention belongs to carbon fiber recovery technique fields, there is provided a kind of underwater steel component carbon fiber maintenance reinforcement method, comprising: firstly, removing steel plate original surface greasy dirt, and roughening treatment is carried out as progress deep layer degreasing in supersonic wave cleaning machine, and to steel plate original surface and fiber cloth surface；Secondly, preparing underwater epoxy adhesive as reinforcement adhesive, adhesive configuration, which finishes, is placed on underwater soaking；Again, reinforcement adhesive coated is repaired into section in underwater carbon cloth surface, steel plate original surface, wherein repair in section comprising damaging section, potting resin is added in damage section；It is repaired above section finally, the carbon cloth after gluing is bonded in steel plate, and at room temperature as underwater curing 7~10 days.The advantages that present invention utilizes carbon fiber high-strength light, durability is good, Corrosion Protection is strong, can be improved the yield strength of defect steel plate；Operation of the present invention is simple, expense is low, short time limit simultaneously, can reduce cost.

Description

A kind of underwater steel component carbon fiber maintenance reinforcement method

Technical field

The invention belongs to carbon fiber recovery technique fields, relate generally to carbon fiber and repair underwater steel construction more particularly to one The method of the underwater steel component carbon fiber maintenance and reinforcement of kind.

Background technique

Carbon fiber is resin system by a certain percentage and by a kind of composite material made of certain processing technology, is had The advantages that high-strength light, durability be good, waterproof anti-corrosion, simple construction technology.Development and application and binder with carbon fiber Performance is continuously improved, advanced restorative procedure of the carbon fiber repairing technique as a kind of high efficiency, low cost, in building work Very big attention has been obtained in journey and is conducted extensive research and is applied.

Traditional underwater steel construction recovery technique mainly has welding, rivets or be spirally connected, these restorative procedures are in addition to operation Outside the disadvantages of difficulty is big, and reparation is long in time limit, less economical, stress concentration and residual stress of structure etc. are also caused in various degree Problem.At present carbon fibre reinforced composite repair concrete structure technique it is mature and be widely used in concrete beam and board, In the reparation of the engineering structures such as column, bridge pier, it may be said that carbon fiber recovery technique and condition applied to boat structure are very This technology is applied to the reparation of underwater steel construction, will there is very big research application space by maturation.

Summary of the invention

Traditional underwater recovery technique there are aiming at the problem that, the present invention provide a kind of underwater steel component carbon fiber maintenance plus Solid method.

The underwater steel member of carbon fiber maintenance and reinforcement is to be transmitted using a kind of special underwater epoxy adhesive as load Bridge is bonded together damaged member and carbon fiber to form composite component, when composite component is by external force, steel member, The system shared load of adhesive, carbon fiber composition, generates Relative sliding between steel member and carbon fiber, internal system will There is shear stress, and be stress maximum value at adhesive surface both ends, gradually successively decreases along Impact direction to centre.In the process With the transmitting puted forth effort, the load that steel plate undertakes constantly reduces, and the total bearing capacity of composite component is constant, so carbon fiber is held The power of load just constantly increases, so that carbon fiber has shared the fractional load of damaged member, reduces the load that damaged member undertakes, To achieve the purpose that maintenance and reinforcement.

To achieve the goals above, the technical solution of the present invention is as follows:

A kind of method of underwater steel component carbon fiber maintenance and reinforcement, main includes that the impaired steel plate of simulation and carbon cloth are clear Clean drying, roughening treatment, underwater epoxy adhesive preparation, the smearing of adhesive, underwater curing and etc..Specific step is as follows:

Step 1: repeatedly wiping steel plate original surface 1 using organic solvent, removes surface and oil contaminant, damages on steel plate original surface 1 Hurt notch, damage indentation, there is to damage section 6.

Step 2: by step 1, treated that steel plate is put into carries out deep layer in the supersonic wave cleaning machine equipped with solvent and deoil It is dirty.It is not further added by the fat content in organic solvent, steel plate is taken out, using distilled water or inorganic salts warm water washing steel plate table Face is then dried steel plate.

Step 3: roughening treatment is carried out to steel plate original surface 1 and fiber cloth surface

After degreasing, using the reparation section 7 of angle grinder polishing steel plate original surface 1, wherein repairing in section 7 comprising damage section 6； Using No. 240 sand paper polishing 4 surfaces of carbon cloth；Roughening treatment is carried out, for increasing the roughness of cementitious surface, to increase The mechanical snap power of colloid, steel plate and carbon cloth surface, it is desirable that polishing dynamics and degree are paid attention to during polishing carbon cloth, It is unable to damaged fiber silk.

After 4 surface ash of carbon cloth is polished, carbon cloth surface dirt is wiped using absorbent cotton dipping organic solvent And greasy dirt hangs and volatilizees for a moment to organic solvent until no carbon fiber grain, it is spare after dry.

Polishing steel plate for a period of time after, it is glossy to metal surface and it is coarse have matter, that is, reach grinding effect, handled Matte layer 5 afterwards.Finally using spare after organic solvent rinsing, drying processing.

Step 4: underwater epoxy adhesive is prepared as reinforcement adhesive 2, adhesive is stirred after configuring It is even, reinforcement adhesive 2 is placed in underwater soaking 30~35 minutes.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 2~6 parts of nano silica, bisphenol-A-E51 ring 90~110 parts of oxygen resin, 10~15 parts of diluent acetone, 20~25 parts of double-quick cement, 50~55 parts of silicon powder, moistening flatting agent 0.5~2 part, 40~50 parts of 1085A underwater curing agent, 30~35 parts of light calcium carbonate powder, 10~15 parts of talcum powder, adhesion promoter 1 ~2 parts.Configuration process are as follows:

1) raw material is weighed respectively according to parts by weight；

2) at room temperature, coupling agent KH-560 is added in acetone soln, powerful motor blender after mixing, is added 2 Mixed solution is placed in supersonic generator processing, nanoparticle is made to be dispersed in solution by~6 parts of nano silica In；

The corresponding coupling agent KH-560 for being added 0.25~0.75 part of every 2~6 parts of nano silica, wherein even The mass ratio for joining agent KH-560 and nano silica is 1:8；

3) at room temperature, 90~110 parts of bisphenol-A-E51 epoxy resin are added in mixed solution made from step (2), are used Powerful motor blender after mixing, is heated up to 70~80 DEG C and sloughs acetone, continue with to obtain using supersonic generator Nano-silicon dioxide modified epoxy resin solution；

4) when temperature is down to room temperature, by 10~15 parts of diluent acetone, 20~25 parts of double-quick cement, 50~55 parts Silicon powder, 0.5~2 part of moistening flatting agent are added in the epoxy resin solution that step (3) obtain, are stirred using powerful motor It is stood after machine mixing and obtains component A for a moment；

In addition, at room temperature, by 40~50 parts of 1085A underwater curing agent, 30~35 parts of light calcium carbonate powder, 10~15 parts Talcum powder, 1~2 part of adhesion promoter sequentially add in container, are obtained using a moment is stood after the mixing of powerful motor blender To B component；

5) A, B component are mixed at room temperature, obtains nano silica after standing using the processing of powerful motor blender and changes The underwater epoxy resin adhesive of property.

Step 5: it by surface treated carbon cloth drawout and is placed under water, reinforcement adhesive 2 is uniformly smeared In 4 surface of carbon cloth；Potting resin 3 is added in the damage section 6 of steel plate original surface 1, at fill up the gap after, under water by reinforcement Adhesive 2 is uniformly applied to the reparation section 7 of steel plate original surface 1；The reinforcement adhesive coated on carbon cloth surface and reparation section 7 The thickness control of 2 bodies is intermediate slightly thick between 2-3mm, stands a moment to remove the bubble in glue-line.

Step 6: the carbon cloth 4 after gluing is slowly bonded in from steel plate one end to the other end in the reparation section 7 of steel plate Side, side welt rubber cylinder roll on 4 surface of carbon cloth along filametntary direction, and colloid is made to have pico- overflow in bond edge Out, guarantee that carbon cloth 4 sufficiently extends, straight and uniform compaction is in steel plate reparation 7 surface of section.

Step 7: the steel plate for pasting carbon cloth 4 is placed in room temperature underwater environment and is solidified 7~10 days.

Organic solvent described in above-mentioned steps is acetone.

The beneficial effects of the present invention are: the present invention utilizes carbon fiber high-strength light, durability is good, Corrosion Protection is strong etc. Advantage can be improved the yield strength of impaired steel plate, and it is a kind of novel effective to propose for underwater steel construction maintenance and reinforcement Solution；While construction is simple of the present invention, expense are low, short time limit, can reduce cost.

Detailed description of the invention

Fig. 1 is carbon cloth repaired steel-structure schematic diagram；

Fig. 2 is defect steel plate schematic diagram；(a) it is front view, (b) is top view, (c) is side view；

Fig. 3 is the flow chart for preparing underwater epoxy adhesive；

In figure: 1 steel plate original surface；2 reinforcement adhesive；3 potting resins；4 carbon cloths；5 treated matte layers； 6 damage sections；7 repair section.

Specific embodiment

Technical solution for a better understanding of the present invention is further retouched in detail below in conjunction with drawings and examples work It states.

Fig. 1 is carbon cloth repaired steel-structure schematic diagram；Fig. 2 is defect steel plate schematic diagram, according to GB/T1591-2008 " low-alloy high-tensile structural steel ", for the present invention using Q235b alloy-steel plate as bonding testing piece, shape and size are as shown in Figure 2. Piece lengths are 450mm, specimen width 50mm, section thickness 2mm, and designing a radius in piece lengths center position is The circular hole of 9mm.

Embodiment 1: by the steel plate of sticking carbon fiber (25 DEG C) ambient cure 7 days under water

Step 1: repeatedly wiping steel plate original surface 1 with organic solvent-acetone, removes surface and oil contaminant, has on steel plate original surface 1 Notch is damaged, damage indentation, there is to damage section 6.

Step 2: deep layer will be carried out in the supersonic wave cleaning machine of step 1 treated steel plate is put into dress organic solvent-acetone Degreasing.It is not further added by the fat content in organic solvent, steel plate is taken out, using distilled water or inorganic salts warm water washing steel plate Surface is then dried steel plate.

Step 3: roughening treatment is carried out to steel plate original surface 1 and fiber cloth surface

After degreasing, using the reparation section 7 of angle grinder polishing steel plate original surface 1, wherein repairing in section 7 comprising damage section 6； Using No. 240 sand paper polishing 4 surfaces of carbon cloth, roughening treatment is carried out.

After 4 surface ash of carbon cloth is polished, using absorbent cotton dipping acetone wiping carbon cloth surface dirt and oil Dirt hangs and volatilizees for a moment to acetone until no carbon fiber grain, spare after dry.

Polishing steel plate for a period of time after, it is glossy to metal surface and it is coarse have matter, that is, reach grinding effect, handled Matte layer 5 afterwards.Finally using spare after organic solvent-acetone rinsing, drying processing.

Step 4: underwater epoxy adhesive is prepared as reinforcement adhesive 2, adhesive is stirred after configuring It is even, reinforcement adhesive 2 is placed in underwater soaking 30~35 minutes.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 4 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 100 parts of rouge, 12 parts of diluent acetone, 22 parts of double-quick cement, 53 parts of silicon powder, 1.5 parts of moistening flatting agent, 1085A underwater curing 45 parts of agent, 32 parts of light calcium carbonate powder, 13 parts of talcum powder, 1.5 parts of adhesion promoter.

Step 5: it by surface treated carbon cloth drawout and is placed under water, reinforcement adhesive 2 is uniformly smeared In 4 surface of carbon cloth；Potting resin 3 is added in the damage section 6 of steel plate original surface 1, at fill up the gap after, under water by reinforcement Adhesive 2 is uniformly applied to the reparation section 7 of steel plate original surface 1；The reinforcement adhesive coated on carbon cloth surface and reparation section 7 The thickness control of 2 bodies is intermediate slightly thick between 2-3mm, stands a moment to remove the bubble in glue-line.

Step 6: the carbon cloth 4 after gluing is slowly bonded in from steel plate one end to the other end in the reparation section 7 of steel plate Side, side welt rubber cylinder roll on 4 surface of carbon cloth along filametntary direction.

Step 7: by the steel plate of sticking carbon fiber (25 DEG C) ambient cure 7 days under water.

Embodiment 2: other same as Example 1 by the steel plate of sticking carbon fiber (25 DEG C) ambient cure 8 days under water.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 5 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 95 parts of rouge, 12 parts of diluent acetone, 24 parts of double-quick cement, 51 parts of silicon powder, 0.5 part of moistening flatting agent, 1085A underwater curing agent 40 parts, 31 parts of light calcium carbonate powder, 11 parts of talcum powder, 1 part of adhesion promoter.

Embodiment 3: other same as Example 1 by the steel plate of sticking carbon fiber (25 DEG C) ambient cure 9 days under water.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 3 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 110 parts of rouge, 14 parts of diluent acetone, 25 parts of double-quick cement, 55 parts of silicon powder, 2 parts of moistening flatting agent, 1085A underwater curing agent 42 parts, 30 parts of light calcium carbonate powder, 12 parts of talcum powder, 1 part of adhesion promoter.

Embodiment 4: other same as Example 1 by the steel plate of sticking carbon fiber (25 DEG C) ambient cure 10 days under water.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 6 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 105 parts of rouge, 11 parts of diluent acetone, 21 parts of double-quick cement, 51 parts of silicon powder, 0.5 part of moistening flatting agent, 1085A underwater curing 41 parts of agent, 325 parts of light calcium carbonate powder, 10 parts of talcum powder, 2 parts of adhesion promoter.

Embodiment 5: other same as Example 1 by the steel plate of sticking carbon fiber (28 DEG C) ambient cure 7 days under water.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 4 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 95 parts of rouge, 10 parts of diluent acetone, 25 parts of double-quick cement, 51 parts of silicon powder, 0.6 part of moistening flatting agent, 1085A underwater curing agent 44 parts, 32 parts of light calcium carbonate powder, 13 parts of talcum powder, 2 parts of adhesion promoter.

Embodiment 6: other same as Example 1 by the steel plate of sticking carbon fiber (35 DEG C) ambient cure 7 days under water.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 4 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 99 parts of rouge, 12 parts of diluent acetone, 22 parts of double-quick cement, 53 parts of silicon powder, 0.8 part of moistening flatting agent, 1085A underwater curing agent 45 parts, 33 parts of light calcium carbonate powder, 14 parts of talcum powder, 2 parts of adhesion promoter.

Embodiment 7: other same as Example 1 by the steel plate of sticking carbon fiber at room temperature (35 DEG C) ambient cure 8 days.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 6 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 100 parts of rouge, 12 parts of diluent acetone, 14 parts of double-quick cement, 51 parts of silicon powder, 1.5 parts of moistening flatting agent, 1085A underwater curing 42 parts of agent, 31 parts of light calcium carbonate powder, 113 parts of talcum powder, 2 parts of adhesion promoter.

Embodiment 8: other same as Example 1 by the steel plate of sticking carbon fiber at room temperature (33 DEG C) ambient cure 9 days.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 5 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 95 parts of rouge, 14 parts of diluent acetone, 23 parts of double-quick cement, 55 parts of silicon powder, 1 part of moistening flatting agent, 1085A underwater curing agent 45 Part, 33 parts of light calcium carbonate powder, 14 parts of talcum powder, 2 parts of adhesion promoter.

Embodiment 9: other same as Example 1 by the steel plate of sticking carbon fiber at room temperature (35 DEG C) ambient cure 9 days.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 5 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 105 parts of rouge, 14 parts of diluent acetone, 24 parts of double-quick cement, 52 parts of silicon powder, 2 parts of moistening flatting agent, 1085A underwater curing agent 48 parts, 31 parts of light calcium carbonate powder, 12 parts of talcum powder, 2 parts of adhesion promoter.

Embodiment 10: other same as Example 1 by the steel plate of sticking carbon fiber at room temperature (37 DEG C) ambient cure 9 days.

Its composition of the reinforcement adhesive 2 and parts by weight are as follows: 5 parts of nano silica, bisphenol-A-E51 asphalt mixtures modified by epoxy resin 105 parts of rouge, 11 parts of diluent acetone, 22 parts of double-quick cement, 53 parts of silicon powder, 1 part of moistening flatting agent, 1085A underwater curing agent 45 parts, 33 parts of light calcium carbonate powder, 15 parts of talcum powder, 1.5 parts of adhesion promoter.

Mechanical property survey is carried out to the carbon cloth reinforced steel plate in 1~embodiment of embodiment 10 according to concerned countries standard Examination, mechanical experimental results are as shown in table 1

1 1~embodiment of embodiment of table, 10 mechanical strength test result

Mechanical property survey is carried out to the carbon cloth reinforced steel plate in 1~embodiment of embodiment 12 according to concerned countries standard Examination, finally determines carbon cloth reinforced steel plate and constructs under water, under conditions of underwater curing, with carbon cloth maintenance and reinforcement steel Plate can make overall yield load have a certain upgrade, and maximum lift amplitude can reach 48.8%.

Embodiment described above only expresses embodiments of the present invention, and but it cannot be understood as to the invention patent Range limitation, it is noted that for those skilled in the art, without departing from the inventive concept of the premise, also Several modifications and improvements can be made, these are all belonged to the scope of protection of the present invention.

Claims (5)

1. a kind of method of underwater steel component carbon fiber maintenance and reinforcement, it is characterised in that following steps:

Step 1: repeatedly being wiped steel plate original surface (1) using organic solvent, removes surface and oil contaminant, and steel plate original surface damages on (1) Hurt notch, damage indentation, there is to damage section (6)；

Step 2: by step 1 treated steel plate is put into progress deep layer degreasing in the supersonic wave cleaning machine equipped with solvent； It is not further added by the fat content in organic solvent, takes out steel plate, using distilled water or inorganic salts warm water washing surface of steel plate, and Steel plate is dried；

Step 3: roughening treatment is carried out to steel plate original surface (1) and fiber cloth surface

Using the reparation section (7) of angle grinder polishing steel plate original surface (1), wherein repairing in section (7) comprising damage section (6), polishing It is glossy to metal surface and it is coarse have the matte layer (5) that obtains that treated after matter, at organic solvent rinsing, drying It is spare after reason；

Using sand paper polishing carbon cloth (4) surface, it is unable to damaged fiber silk during polishing carbon cloth, after polishing, It is spare after dry using absorbent cotton dipping organic solvent wiping carbon cloth surface dirt and greasy dirt；

Step 4: preparing underwater epoxy adhesive as reinforcement adhesive (2), and adhesive is uniformly mixed after configuring, Reinforcement adhesive (2) is placed in underwater soaking；

Step 5: it by surface treated carbon cloth drawout and is placed under water, reinforcement adhesive (2) is uniformly applied to Carbon cloth (4) surface；Potting resin 3 is added in the damage section (6) of steel plate original surface (1), at fill up the gap after, under water will Reinforcement adhesive (2) is uniformly applied to the reparation section (7) of steel plate original surface (1)；It is coated in carbon cloth surface and reparation section (7) Reinforcement adhesive (2) body thickness control between 2-3mm, after smearing stand for removing the bubble in glue-line；

Step 6: the carbon cloth (4) after gluing is slowly bonded in the reparation section (7) of steel plate from steel plate one end to the other end It is square, guarantee that carbon cloth (4) sufficiently extend, straight and uniform compaction is in steel plate reparation section (7) surface in bonding process；

Step 7: the steel plate for pasting carbon cloth (4) is placed in room temperature underwater environment and is solidified 7~10 days.

2. a kind of method of underwater steel component carbon fiber maintenance and reinforcement according to claim 1, which is characterized in that described Reinforcement adhesive (2) the underwater soaking time be 30~35 minutes.

3. a kind of method of underwater steel component carbon fiber maintenance and reinforcement according to claim 1 or 2, which is characterized in that Its composition of the reinforcement adhesive (2) and parts by weight are as follows: 2~6 parts of nano silica, bisphenol-A-E51 epoxy resin 90~110 parts, 10~15 parts of diluent acetone, 20~25 parts of double-quick cement, 50~55 parts of silicon powder, moistening flatting agent 0.5~2 Part, 40~50 parts of 1085A underwater curing agent, 30~35 parts of light calcium carbonate powder, 10~15 parts of talcum powder, 1~2 part of adhesion promoter.

4. a kind of method of underwater steel component carbon fiber maintenance and reinforcement according to claim 1 or 2, which is characterized in that The organic solvent is acetone.

5. a kind of method of underwater steel component carbon fiber maintenance and reinforcement according to claim 3, which is characterized in that described Organic solvent be acetone.