阅读说明：本技术 一种煤矿耐磨齿板的复合熔覆再制造方法 (Composite cladding remanufacturing method of coal mine wear-resistant toothed plate ) 是由 焦阳 宫成 马晓燕 詹利华 曹海清 李玉良 陈瑞 党帅 张二军 于 2021-09-08 设计创作，主要内容包括：本发明涉及煤矿机械领域,具体涉及一种煤矿耐磨齿板的复合熔覆再制造方法。本发明包括如下步骤1)对失效的耐磨齿板进行评估；2)将具备再制造耐磨齿板进行表面打磨和机加工沟槽处理；3)将步骤2)得到的耐磨齿板进行3D建模,再进行再制造路径规划；4)将步骤3)得到的煤矿耐磨齿板进行复合熔覆再制造,形成熔覆层；5)将步骤4)得到的再制造耐磨齿板进行着色探伤,检验合格即为再制造煤矿耐磨齿板。本发明最大程度延长耐磨齿板的使用寿命,解决了现有技术中存在煤矿耐磨齿板修复手段匮乏导致修复后性能难以满足使用要求的问题,具有工艺简单、节能环保和成本低廉等优势。(The invention relates to the field of coal mine machinery, in particular to a composite cladding remanufacturing method of a coal mine wear-resistant toothed plate. The method comprises the following steps of 1) evaluating the failed wear-resistant toothed plate; 2) carrying out surface polishing and machining groove treatment on the remanufactured wear-resistant toothed plate; 3) 3D modeling is carried out on the wear-resistant toothed plate obtained in the step 2), and then remanufacturing path planning is carried out; 4) carrying out composite cladding remanufacturing on the coal mine wear-resistant toothed plate obtained in the step 3) to form a cladding layer; 5) and (4) carrying out color flaw detection on the remanufactured wear-resistant toothed plate obtained in the step 4), and obtaining the remanufactured coal mine wear-resistant toothed plate after qualified inspection. The invention prolongs the service life of the wear-resistant toothed plate to the greatest extent, solves the problem that the performance of the repaired wear-resistant toothed plate is difficult to meet the use requirement due to the lack of the repairing means of the coal mine wear-resistant toothed plate in the prior art, and has the advantages of simple process, energy saving, environmental protection, low cost and the like.)

1. The composite cladding remanufacturing method of the coal mine wear-resistant toothed plate is characterized by comprising the following steps of:

1) analysis and evaluation:

performing surface cleaning pretreatment on the coal mine wear-resistant toothed plate with the sum of the crack depth and the damage size not exceeding 25 mm;

2) pretreatment of

Polishing the abrasion tooth part of the coal mine abrasion-resistant toothed plate pretreated in the step 1) to remove surface cracks and scratches, and then machining a groove in the abrasion tooth part;

3) remanufacturing path planning

Extracting a 3D model of the coal mine wear-resistant toothed plate to be remanufactured in the step 2) through a handheld scanner, then completing the copying of the incomplete part through reverse analysis, and then determining a repairing path through slicing;

4) composite cladding remanufacturing replica:

performing laser and arc composite cladding according to the repair path in the step 3), and selecting a high-ceramic-content wear-resistant welding wire which comprises the following components: 5-50 wt.%, TiC: 0-50 wt.%, the balance of Fe-based alloy, the diameter of the welding wire is 1.2mm, and the composite cladding process comprises the following steps: the included angle between a welding gun and a laser head is 45 degrees, the protective gas is 95% Ar + 5% CO2, the gas flow is 5-15L/min, the laser power is 2.0-6.0KW, the welding current is 40-250A, the wire feeding speed is 2-10m/min, and the thickness of an arc welding layer is 2-25 mm;

5) remanufacturing performance testing

Detecting whether cracks or other defects exist in the arc cladding remanufactured coal mine wear-resistant toothed plate in the step 4) by using a dye penetrant inspection method;

6) shaping process

And (4) processing and manufacturing the arc cladding remanufactured wear-resistant toothed plate according to the size of the wear-resistant toothed plate to obtain the remanufactured coal mine wear-resistant toothed plate.

2. The composite cladding remanufacturing and repairing method for the coal mine wear-resistant toothed plate according to claim 1, wherein the tooth grooves of the pre-treated wear-resistant toothed plate in the step 2) are dovetail-shaped.

3. The composite cladding remanufacturing method for the coal mine wear-resistant toothed plate according to claim 1 or 2, wherein in the composite cladding remanufacturing in the step 4), the laser is a C3300X fiber laser with rated power of 6kw, the output wavelength is 1080nm, the focal length of the focusing lens is 290mm, and the diameter of a light spot is 1.2 mm; the electric arc equipment is an NBC-350 inverter type gas shielded welding machine, the rated voltage is 380V, the output current range is 40A-250A, and the wire feeding mode is divided into wire pushing and wire drawing.

Technical Field

The invention belongs to the field of coal mine machinery, and particularly relates to a composite cladding remanufacturing method of a coal mine wear-resistant toothed plate.

Background

As a large resource country in China, the quantity of mine exploitation and the quantity of mechanical equipment used are large every year, and the economic loss of scrapped equipment cannot be estimated. The remanufacturing technology is a high-tech industry for repairing and transforming waste equipment and is a necessary trend for transforming and upgrading mine mechanical equipment in the future. Therefore, the prospect of remanufacturing mine equipment by remanufacturing is enormous.

At present, the main mining mode of coal is underground mining, and coal mining machines such as coal mining machines, heading machines, scraper machines, hydraulic supports and the like have large investment. Meanwhile, in the application process, the damage forms of the coal mine equipment are various, for example, cutting teeth of a coal mining machine which is under the action of heavy load for a long time are easy to wear; the chain wheel of the coal mining equipment is also a widely used part, and in the contact process of the chain wheel and the chain, the teeth of the chain wheel can be seriously abraded, so that the chain can not be hung for transportation. In the coal washing process, the hardness of the coal cinder reaches about 1000HV, so that the abrasion-resistant toothed plate of the coal mine is under the alternating load effect for a long time, the abrasion damage phenomenon is very serious, and the abrasion-resistant toothed plate is required to be replaced once being abraded. At present, only a small amount of worn coal mine wear-resistant toothed plates are remanufactured and repaired, and most of the wear-resistant toothed plates are directly scrapped. This is because the wear-resisting pinion rack in colliery is the dysmorphism piece, and the damage condition of each tooth portion is different, and the manual repair degree of difficulty is high, leads to the recovery rate of wear-resisting pinion rack not high, and the in service life-span of part is short, has caused huge waste and economic loss.

Disclosure of Invention

The invention aims to provide a composite cladding remanufacturing method of a coal mine wear-resistant toothed plate, which aims to solve the problems that damaged teeth are difficult to repair, the geometric dimension is difficult to recover and the service life of parts is short in the prior art.

In order to achieve the purpose, the composite cladding remanufacturing method for the coal mine wear-resistant toothed plate adopts the following technical scheme, and comprises the following steps:

1) analysis and evaluation:

performing surface cleaning pretreatment on the coal mine wear-resistant toothed plate with the sum of the crack depth and the damage size not exceeding 25 mm;

2) pretreatment of

Polishing the abrasion tooth part of the coal mine abrasion-resistant toothed plate pretreated in the step 1) to remove surface cracks and scratches, and then machining a groove in the abrasion tooth part;

3) remanufacturing path planning

Extracting a 3D model of the coal mine wear-resistant toothed plate to be remanufactured in the step 2) through a handheld scanner, then completing the copying of the incomplete part through reverse analysis, and then determining a repairing path through slicing;

4) composite cladding remanufacturing replica:

performing laser and arc composite cladding according to the repair path in the step 3), and selecting a high-ceramic-content wear-resistant welding wire which comprises the following components: 5-50 wt.%, TiC: 0-50 wt.%, the balance of Fe-based alloy, the diameter of the welding wire is 1.2mm, and the composite cladding process comprises the following steps: the included angle between a welding gun and a laser head is 45 degrees, the protective gas is 95% Ar + 5% CO2, the gas flow is 5-15L/min, the laser power is 2.0-6.0KW, the welding current is 40-250A, the wire feeding speed is 2-10m/min, and the thickness of an arc welding layer is 2-25 mm;

5) remanufacturing performance testing

Detecting whether cracks or other defects exist in the arc cladding remanufactured coal mine wear-resistant toothed plate in the step 4) by using a dye penetrant inspection method;

6) shaping process

And (4) processing and manufacturing the arc cladding remanufactured wear-resistant toothed plate according to the size of the wear-resistant toothed plate to obtain the remanufactured coal mine wear-resistant toothed plate.

Further, the tooth grooves of the wear-resistant toothed plates pretreated in the step 2) are dovetail-shaped.

Further, in the step 4), when the composite cladding is remanufactured, the laser is a C3300X fiber laser with rated power of 6kw, the output wavelength is 1080nm, the focal length of the focusing lens is 290mm, and the diameter of a light spot is 1.2 mm; the electric arc equipment is an NBC-350 inverter type gas shielded welding machine, the rated voltage is 380V, the output current range is 40A-250A, and the wire feeding mode is divided into wire pushing and wire drawing.

According to the method, the failed wear-resistant toothed plate is evaluated, the wear-resistant toothed plate with remanufacturing value is subjected to machining pretreatment, then a composite cladding remanufacturing path is determined by utilizing 3D modeling and slicing, and finally the damaged area of the wear-resistant toothed plate is restored by utilizing a laser and arc composite cladding method to obtain the remanufactured wear-resistant toothed plate.

Compared with the prior art, the invention has the advantages that:

1. the method adds the step of preprocessing the groove structure, and improves the binding force of the remanufactured tooth part; the problems of poor working environment, high labor intensity and serious size error of manual repair welding are solved through 3D modeling and path design;

2. high-performance forming of a remanufactured area is realized through composite cladding. The parameters of laser cladding and electric arc cladding need to be regulated and controlled, so that the melting of metal is realized, and the overheating decomposition of ceramic is avoided;

3. high-performance restoration is realized by matching the wear-resistant welding wire with high ceramic content with the process. The remanufacturing method provided by the invention can greatly improve the remanufacturing efficiency by more than 1 time, and the wear resistance is superior to the degree of a new wear-resistant toothed plate.

Drawings

Fig. 1 is a schematic diagram of a tooth preprocessing groove of a coal mine wear-resistant toothed plate.

Fig. 2 is a process of modeling and repairing a coal mine wear-resistant toothed plate according to the invention.

Fig. 3 is a schematic diagram of a composite cladding remanufacturing process of the coal mine wear-resistant toothed plate.

Fig. 4 is a micro-topography of a remanufactured and repaired area of a wear-resistant toothed plate in embodiment 1 of the present invention.

Fig. 5 is a comparison of the wear resistance of the wear-resistant toothed plate according to embodiment 1 of the present invention.

Fig. 6 is a micro-topography of a remanufactured and repaired area of a wear-resistant toothed plate in embodiment 2 of the present invention.

Fig. 7 is a micro-topography of a remanufactured and repaired area of a wear-resistant toothed plate of comparative example 1 according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples, but they should not be construed as limiting the scope of the present invention.

Example 1: the invention provides a composite cladding remanufacturing method of a coal mine wear-resistant toothed plate, which comprises the following steps of:

1) analytical evaluation

Adopt the tooth portion damage condition of size test definite colliery wear-resisting pinion rack, adopt the ultrasonic flaw detector to detect colliery wear-resisting pinion rack crack distribution, will carry out the clean preliminary treatment of surface through the colliery wear-resisting pinion rack of aassessment, the standard of aassessment is: the sum of the crack depth and the damage size of the wear-resistant toothed plate is not more than 25 mm. More preferably not more than 20 mm.

2) Pretreatment of

Firstly selecting a grinding wheel grinding method to remove a fatigue wear layer of the tooth part of the wear-resistant toothed plate of the coal mine, namely removing surface cracks and scratches, and then machining a groove on the wear tooth part by machining, wherein the wear tooth part of the coal mine wear-resistant toothed plate is pretreated in the step 1):

referring to fig. 1, this embodiment is a dovetail groove having dimensions of about 5mm depth, 5mm width at the top and 10mm width at the bottom. The dovetail-shaped groove can improve the binding force between the cladding repair layer and the substrate layer, and is more beneficial to prolonging the service life of the remanufactured toothed plate.

3) Remanufacturing path planning

Referring to fig. 2, extracting the 3D model of the coal mine wear-resistant toothed plate to be remanufactured in step 2) by using a handheld scanner, then completing the replication of the incomplete part by using reverse analysis, and then determining a repair path by slicing;

in this embodiment: the width of the composite cladding area is 5-10mm, the single-pass cladding thickness is 0.5-5mm, the more preferable width of the cladding area is 6-8mm, and the cladding thickness is 1-2 mm. According to the invention, the remanufacturing efficiency is improved by regulating and controlling the width and the thickness of the cladding layer, the energy consumption is reduced, and the composite cladding remanufacturing quality is ensured.

4) Composite cladding remanufacturing

According to the repairing path in the step 3), remanufacturing and remodeling of the coal mine wear-resistant toothed plate are completed by using a mechanical arm to control laser arc composite cladding equipment, and the specific parameters are as follows:

in the embodiment, a flux-cored wire with 50 wt.% of WC and the balance of Fe-based alloy is selected as a raw material, a composite cladding technology is utilized to repair a damaged area,

see fig. 3. The included angle between the welding gun for composite cladding and the laser head is 45 degrees, and the protective gas is 95% Ar + 5% CO₂The gas flow is 10L/min, the laser power is 3KW, the welding current is 200A, the wire feeding speed is 5/min, and the thickness of an arc welding layer is 15 mm. The microstructure of the composite region is shown in fig. 5. The invention carries out the remanufacturing of the wear-resistant toothed plate through the laser and arc composite cladding remanufacturing, thereby not only solving the problem of low laser cladding repair efficiency, but also solving the problems of shallow melting depth and weak bonding force of an arc cladding repair area.

5) Remanufacturing performance testing

And (3) detecting whether cracks or other defects exist in the arc cladding remanufactured coal mine wear-resistant toothed plate in the step 4) by using a dye penetrant inspection method. The application method well known to those skilled in the art can be selected, and whether the tooth part of the remanufactured wear-resistant toothed plate has cracks or other defects can be detected. If the detection is passed, the next machining treatment is carried out; if the defect exists, the defect is removed through machining, and then remanufacturing and repairing are further carried out until the defect cannot be detected.

6) Shaping process

And processing and manufacturing the detected arc cladding remanufactured wear-resistant toothed plate according to the size of the wear-resistant toothed plate to obtain the remanufactured coal mine wear-resistant toothed plate.

Referring to fig. 5, it can be seen that the wear resistance of the remanufactured wear resistant tooth plate of example 1 was significantly better than the original tooth plate as evaluated for wear resistance.

Example 2: the invention provides a composite cladding remanufacturing method of a coal mine wear-resistant toothed plate, which comprises the following steps of:

1) analytical evaluation

Adopt the tooth portion damage condition of size test definite colliery wear-resisting pinion rack, adopt the ultrasonic flaw detector to detect colliery wear-resisting pinion rack crack distribution, will carry out the clean preliminary treatment of surface through the colliery wear-resisting pinion rack of aassessment, the standard of aassessment is: the sum of the crack depth and the damage size of the wear-resistant toothed plate is not more than 25 mm. More preferably not more than 20 mm.

2) Pretreatment of

Firstly selecting a grinding wheel grinding method to remove a fatigue wear layer of the tooth part of the wear-resistant toothed plate of the coal mine, namely removing surface cracks and scratches, and then machining a groove on the wear tooth part by machining, wherein the wear tooth part of the coal mine wear-resistant toothed plate is pretreated in the step 1):

referring to fig. 1, this embodiment is a dovetail groove having dimensions of about 5mm depth, 5mm width at the top and 10mm width at the bottom. The dovetail-shaped groove can improve the binding force between the cladding repair layer and the substrate layer, and is more beneficial to prolonging the service life of the remanufactured toothed plate.

3) Remanufacturing path planning

Referring to fig. 2, extracting the 3D model of the coal mine wear-resistant toothed plate to be remanufactured in step 2) by using a handheld scanner, then completing the replication of the incomplete part by using reverse analysis, and then determining a repair path by slicing;

in this embodiment: the width of the composite cladding area is 5-10mm, the single-pass cladding thickness is 0.5-5mm, the more preferable width of the cladding area is 6-8mm, and the cladding thickness is 1-2 mm. According to the invention, the remanufacturing efficiency is improved by regulating and controlling the width and the thickness of the cladding layer, the energy consumption is reduced, and the composite cladding remanufacturing quality is ensured.

4) Composite cladding remanufacturing

According to the repairing path in the step 3), remanufacturing and remodeling of the coal mine wear-resistant toothed plate are completed by using a mechanical arm to control laser arc composite cladding equipment, and the specific parameters are as follows:

in the embodiment, a flux-cored wire with 50 wt% of WC, 5 wt% of TiC and the balance of Fe-based alloy is selected as a raw material, a composite cladding technology is utilized to repair a damaged area,

see fig. 3. The included angle between the welding gun for composite cladding and the laser head is 45 degrees, and the protective gas is 95% Ar + 5% CO₂The gas flow is 10L/min, the laser power is 3.0KW, the welding current is 250A, the wire feeding speed is 5/min, and the thickness of an arc welding layer is 15 mm. The microstructure of the composite region is shown in fig. 5. The invention carries out the remanufacturing of the wear-resistant toothed plate through the laser and arc composite cladding remanufacturing, thereby not only solving the problem of low laser cladding repair efficiency, but also solving the problems of shallow melting depth and weak bonding force of an arc cladding repair area.

5) Remanufacturing performance testing

And (3) detecting whether cracks or other defects exist in the arc cladding remanufactured coal mine wear-resistant toothed plate in the step 4) by using a dye penetrant inspection method. The application method well known to those skilled in the art can be selected, and whether the tooth part of the remanufactured wear-resistant toothed plate has cracks or other defects can be detected. If the detection is passed, the next machining treatment is carried out; if the defect exists, the defect is removed through machining, and then remanufacturing and repairing are further carried out until the defect cannot be detected.

6) Shaping process

And processing and manufacturing the detected arc cladding remanufactured wear-resistant toothed plate according to the size of the wear-resistant toothed plate to obtain the remanufactured coal mine wear-resistant toothed plate.

Referring to fig. 6, it can be seen that the reinforcing phases of the wear-resistant tooth plate remanufactured in example 2 are WC and TiC, wherein the top of the composite cladding layer is mainly made of black TiC reinforcing phase, and the bottom is more white WC reinforcing phase.

Example 3: the invention provides a composite cladding remanufacturing method of a coal mine wear-resistant toothed plate, which comprises the following steps of:

1) analytical evaluation

Adopt the tooth portion damage condition of size test definite colliery wear-resisting pinion rack, adopt the ultrasonic flaw detector to detect colliery wear-resisting pinion rack crack distribution, will carry out the clean preliminary treatment of surface through the colliery wear-resisting pinion rack of aassessment, the standard of aassessment is: the sum of the crack depth and the damage size of the wear-resistant toothed plate is not more than 25 mm. More preferably not more than 20 mm.

2) Pretreatment of

Firstly selecting a grinding wheel grinding method to remove a fatigue wear layer of the tooth part of the wear-resistant toothed plate of the coal mine, namely removing surface cracks and scratches, and then machining a groove on the wear tooth part by machining, wherein the wear tooth part of the coal mine wear-resistant toothed plate is pretreated in the step 1):

referring to fig. 1, this embodiment is a dovetail groove having dimensions of about 5mm depth, 5mm width at the top and 10mm width at the bottom. The dovetail-shaped groove can improve the binding force between the cladding repair layer and the substrate layer, and is more beneficial to prolonging the service life of the remanufactured toothed plate.

3) Remanufacturing path planning

Referring to fig. 2, extracting the 3D model of the coal mine wear-resistant toothed plate to be remanufactured in step 2) by using a handheld scanner, then completing the replication of the incomplete part by using reverse analysis, and then determining a repair path by slicing;

in this embodiment: the width of the composite cladding area is 5-10mm, the single-pass cladding thickness is 0.5-5mm, the more preferable width of the cladding area is 6-8mm, and the cladding thickness is 1-2 mm. According to the invention, the remanufacturing efficiency is improved by regulating and controlling the width and the thickness of the cladding layer, the energy consumption is reduced, and the composite cladding remanufacturing quality is ensured.

4) Composite cladding remanufacturing

According to the repairing path in the step 3), remanufacturing and remodeling of the coal mine wear-resistant toothed plate are completed by using a mechanical arm to control laser arc composite cladding equipment, and the specific parameters are as follows:

in the embodiment, a flux-cored wire with 50 wt% of WC, 10 wt% of TiC and the balance of Fe-based alloy is selected as a raw material, a composite cladding technology is utilized to repair a damaged area,

see fig. 3. The included angle between the welding gun for composite cladding and the laser head is 45 degrees, and the protective gas is 95% Ar + 5% CO₂The gas flow is 10L/min, the laser power is 3.5KW, the welding current is 250A, the wire feeding speed is 5/min, and the thickness of an arc welding layer is 15 mm. The microstructure of the composite region is shown in fig. 5. The invention carries out the remanufacturing of the wear-resistant toothed plate through the laser and arc composite cladding remanufacturing, not only solves the problem of low laser cladding repair efficiency, but also solves the problem of low laser cladding repair efficiencyThe problems of shallow fusion depth and weak binding force of an arc fusion covering repair area are solved.

5) Remanufacturing performance testing

And (3) detecting whether cracks or other defects exist in the arc cladding remanufactured coal mine wear-resistant toothed plate in the step 4) by using a dye penetrant inspection method. The application method well known to those skilled in the art can be selected, and whether the tooth part of the remanufactured wear-resistant toothed plate has cracks or other defects can be detected. If the detection is passed, the next machining treatment is carried out; if the defect exists, the defect is removed through machining, and then remanufacturing and repairing are further carried out until the defect cannot be detected.

6) Shaping process

And processing and manufacturing the detected arc cladding remanufactured wear-resistant toothed plate according to the size of the wear-resistant toothed plate to obtain the remanufactured coal mine wear-resistant toothed plate.

Comparative example 1: the invention provides a composite cladding remanufacturing method of a coal mine wear-resistant toothed plate, which comprises the following steps of:

1) analytical evaluation

Adopt the tooth portion damage condition of size test definite colliery wear-resisting pinion rack, adopt the ultrasonic flaw detector to detect colliery wear-resisting pinion rack crack distribution, will carry out the clean preliminary treatment of surface through the colliery wear-resisting pinion rack of aassessment, the standard of aassessment is: the sum of the crack depth and the damage size of the wear-resistant toothed plate is not more than 25 mm. More preferably not more than 20 mm.

2) Pretreatment of

Firstly selecting a grinding wheel grinding method to remove a fatigue wear layer of the tooth part of the wear-resistant toothed plate of the coal mine, namely removing surface cracks and scratches, and then machining a groove on the wear tooth part by machining, wherein the wear tooth part of the coal mine wear-resistant toothed plate is pretreated in the step 1):

referring to fig. 1, this embodiment is a dovetail groove having dimensions of about 5mm depth, 5mm width at the top and 10mm width at the bottom. The dovetail-shaped groove can improve the binding force between the cladding repair layer and the substrate layer, and is more beneficial to prolonging the service life of the remanufactured toothed plate.

3) Remanufacturing path planning

Referring to fig. 2, extracting the 3D model of the coal mine wear-resistant toothed plate to be remanufactured in step 2) by using a handheld scanner, then completing the replication of the incomplete part by using reverse analysis, and then determining a repair path by slicing;

in this embodiment: the width of the composite cladding area is 5-10mm, the single-pass cladding thickness is 0.5-5mm, the more preferable width of the cladding area is 6-8mm, and the cladding thickness is 1-2 mm. According to the invention, the remanufacturing efficiency is improved by regulating and controlling the width and the thickness of the cladding layer, the energy consumption is reduced, and the composite cladding remanufacturing quality is ensured.

4) Composite cladding remanufacturing

According to the repairing path in the step 3), remanufacturing and remodeling of the coal mine wear-resistant toothed plate are completed by using a mechanical arm to control laser arc composite cladding equipment, and the specific parameters are as follows:

in the embodiment, a flux-cored wire with 50 wt% of WC and the balance of Fe-based alloy is selected as a raw material, a composite cladding technology is utilized to repair a damaged area,

see fig. 3. The included angle between the welding gun for composite cladding and the laser head is 45 degrees, and the protective gas is 95% Ar + 5% CO₂The gas flow is 10L/min, the laser power is 5.0KW, the welding current is 300A, the wire feeding speed is 5/min, and the thickness of an arc welding layer is 15 mm. The microstructure of the composite region is shown in fig. 5. The invention carries out the remanufacturing of the wear-resistant toothed plate through the laser and arc composite cladding remanufacturing, thereby not only solving the problem of low laser cladding repair efficiency, but also solving the problems of shallow melting depth and weak bonding force of an arc cladding repair area.

5) Remanufacturing performance testing

And (3) detecting whether cracks or other defects exist in the arc cladding remanufactured coal mine wear-resistant toothed plate in the step 4) by using a dye penetrant inspection method. The application method well known to those skilled in the art can be selected, and whether the tooth part of the remanufactured wear-resistant toothed plate has cracks or other defects can be detected. If the detection is passed, the next machining treatment is carried out; if the defect exists, the defect is removed through machining, and then remanufacturing and repairing are further carried out until the defect cannot be detected.

6) Shaping process

And processing and manufacturing the detected arc cladding remanufactured wear-resistant toothed plate according to the size of the wear-resistant toothed plate to obtain the remanufactured coal mine wear-resistant toothed plate.

Referring to fig. 7, it can be seen that the WC reinforcing phase of the composite cladding layer has completely melted, resulting in deterioration of the performance of the repair material. Therefore, the material for cladding and the composite cladding process adapted by the material are the key for obtaining the high-performance cladding coating.