• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    In the present invention, a laser cladding method is provided which belongs to the art of laser processing. The laser cladding method is characterized in that using laser beam emitted from a semiconductor laser to melt alloy powder for laser cladding on the surface of a hydraulic support column, so that a laser cladding layer is formed; the semiconductor laser is a laser functioning with semiconductor material as gain medium and lighting by means of semiconductor material transition among energy bands; the hydraulic support column is mainly made of alloy steel of 27SiMn. With the laser cladding method, the energy absorption efficiency of laser beam can be increased, and the energy utilization efficiency is increased, so that the power consumption is saved. - 12-
    公开号:AU2012380415A1
    申请号:U2012380415
    申请日:2012-10-31
    公开日:2013-12-12
    发明作者:Chunchun DONG;Xiyong Li;Lunchang SU;Fanliang TANTAI;Qingdong YANG;Yanliang Zhang;Feng Zhou
    申请人:SHANDONG ENERGY MACHINERY GROUP HAN S REMANUFACTURE CO Ltd;
    IPC主号:B22F3-00
    专利说明:
    A LASER CLADDING METHOD FIELD OF INVENTION [00011 The present invention relates to a laser cladding method which belongs to the art of laser processing. BACK GROUND [00021 Hydraulic support columns are key components in mining equipments. In China, the hydraulic support columns are commonly surface treated with the method of chromium plating, so as to prevent the surface from rusting and to prevent corrosion. However, the abrasion performance of the plated chromium layer is poor, and usually, there may be peeling and scaling of the plated chromium layer after 1-1.5 years. Therefore, the surface of the column may be corroded by emulsion, so that the usage effect of the hydraulic support may be affected. [00031 A laser cladding method for mining hydraulic support column is disclosed in Chinese Patent No. CN101875128B, by which three layers of metallurgy materials are clad under particular laser cladding process conditions, so that the problems about the abrasion performance and the anti-corrosion performance of the mining hydraulic support column surface are solved with the service life thereof increased. The detailed technical solution is: performing preheating after the mining hydraulic support column is surface treated, and then plating a bottom layer, a middle layer and a surface layer in sequence with alloy powder material for cladding. Wherein the chosen alloy powder material for cladding for the bottom layer includes 0.1% of C, 3.2% of Si, 0.5% of Mn, 10.2% of Cr, 8.8% of Ni, 0.8% of Nb, 0.1% of B, 0.5% of P and residual amount of Fe. [00041 In the abovementioned laser cladding method, the laser used is a carbon dioxide laser, i.e., a laser functioning with carbon dioxide as gain medium. However, when a carbon dioxide laser is being used to perform laser cladding, the laser beam coming out from the carbon dioxide laser irradiates the hydraulic support column, and energy absorption and utilization efficiency of laser beam is very low. Also, electric energy consumption in the process is relatively large. - 1 - SUMMARY OF TUE INVENTION [0001] In order to solve the abovementioned technical problems, in the present invention, a laser cladding method is provided, with which energy absorption and utilization efficiency of laser beam is increased, the electric energy utilization efficiencyis increased, so that the power consumption is saved. 100021 In detail, following are the technical solutions provided by the present invention: [00031 Solution 1 [00041 A laser cladding method, usi'ing laser beam emitted from a semiconductor laser to melt alloy powder for laser cladding on the surface of a hydraulic support column, so that a laser cladding layer is formed. [00051 Solution 2 [00061 The laser cladding method according to solution 1, changed in that the distance from a laser beam outlet of the semiconductor laser to the surface of the hydraulic support column is in the range of 150-250mm, and the power density of the laser beam emitted from the semiconductor laser is above 109.38W/mm2. [00071 Solution 3 [00081 The laser cladding method according to solution 2, changed in that the distance from the laser beam outlet of the semiconductor laser to the surface of the hydraulic support column is in the range of 190-220mm, and the power density of the laser beam emitted from the semiconductor laser is above 112.63W/mm2. 100091 Solution 4 [00101 The laser cladding method according to solution 3, changed in that the alloy powder for laser cladding is supplied at a speed of 38-40g/min, and the diameter of the alloy powder for laser cladding is in the range of 44-178 m; [00111 the laser beam is a rectangular spot with a length of 16mm and a width of 2mm, and the linear scanning velocity of the laser beam is in the range of 540-780mm/min, with the scanning direction of the laser beam perpendicular to the length direction of the rectangular spot. [00121 Solution 5 [00131 The laser cladding method according to solution 1, changed in that the alloy powder for laser cladding includes: [00141 0.01-0.15% of C, [00151 0.5%-1.0% of Si, [00161 0.4-0.8% of Mn, [00171 17.5%-19.5% of Cr, [00181 21%-25% of Ni, [00191 residual amount of Fe and unavoidable impurities; 100201 wherein the content of each element above is a content of weight percentage. 100211 Solution 6 [00221 The laser cladding method according to solution 1, changed in that the alloy powder for laser cladding includes: [00231 0.05-0.20% of C, [00241 1.0%-1.5% of Si, [00251 0.4-0.8% of Mn, [0026 15 .0%-15.S% of Cr, 100271 4.0%-4.5% of Ni, [00281 residual amount of Fe and unavoidable impurities; [00291 wherein the content of each element above is a content of weight percentage. [00301 Solution 7 [00311 The laser cladding method according to any one of solutions 1-6, changed in that the outer diameter of the hydraulic support column is in the range of 200-400mm. [00321 Solution 8 100331 The laser cladding method according to solution 7, changed in that the outer diameter of the hydraulic support column is in the range of 350-400mm. [00341 With the laser cladding method according to solution 1, the energy absorption and utilization efficiency of laser beam is high, and because of high energy transition efficiency of the semiconductor laser, the electric energy utilization efficiency is increased with the power consumption saved. [00351 In addition, in the solutions of the present invention, since a semiconductor laser is used, the continuous working time can be very long. For example, in an implementation process the continuous working time can exceed 15000 hours. However, when a carbon dioxide laser is used, then the continuous working time is shorter because commonly a vacuum pumping operation needs to be performed once in every 24 hours. [00361 With the laser cladding methods according to solutions 2-3 improved from solution 1, good process parameters are selected, i.e., the cooperative relationship between the distance from the laser beam outlet of the semiconductor laser to the surface of the hydraulic support -3 column and the power density of the laser beam emitted from the semiconductor laser is optimized, so that laser cladding is performed effectively. [00371 Solution 4 is a detailed embodiment, wherein many process parameters are defined, so that precise operating process parameters are provided to those skilled in the art. 100381 With respect to the hydraulic support column obtained according to the above solution 5, because of the specific composition of the laser cladding layer, a good surface hardness, a long service life, a high bonding strength between the cladding layer and the metallic body, and a good salt spray resistance can be obtained. The hardness of the cladding layer on the surface of the hydraulic support column can exceed 30 HRC, the service life in mines is over 5 years, the bonding strength between the cladding layer and the metallic body can exceed 31 OMPa, and the salt spray resistance can be maintained over 96 hours. [00391 With respect to the hydraulic support column obtained according to the above solution 6, on one aspect, the hydraulic support column has all of the performances of the hydraulic support column obtained according to the above solution 5. For example, the service life in mines is over 5 years, the bonding strength between the cladding layer and the metallic body can exceed 310 MPa, and the salt spray resistance can be maintained over 96 hours. Moreover, the hardness of the cladding layer can exceed 451-RC. Also, the cost is low because of the low content of Ni. [00401 With the laser cladding method according to solutions 7 and 8, a preferable outer diameter of the hydraulic support column is given. Also, it is better for the outer diameter of the hydraulic support column to be larger. This is because that when the outer diameter of the hydraulic support column is larger, the outer surface of the column will be more close to a plane, and then the energy of the laser beam emitted from the semiconductor laser will be distributed more evenly on the surface of the hydraulic support column. But on the other aspect, the outer diameter of the surface of the hydraulic support column should not be too large. This is because that larger clamping means and larger carrying means are needed if the outer diameter of the hydraulic support column is too larger. Therefore, the outer diameter of a preferable hydraulic support column is in the range of 200-400mm, more preferably 350 400mm. An even cladding could be achieved and loads for the other devices could be reduced when the outer diameter is within the above ranges. DETAILED DESCRIPTION -4- [00411 The solutions of the present invention will be described in detail with reference to the embodiments, so that the solutions of the present invention will be more apparent to those skilled in the art. [00421 First embodiment 100431 The embodiment is a laser cladding method for mining hydraulic support column. 100441 The hydraulic support column used in the embodiment is a mining hydraulic support column used by XINJULONG ENERGY CO., LTD. of XINWEN MINING GROUP. The column is a hydraulic support column with a body of 27SiMn and a diameter of 300mm. [00451 The laser cladding is performed with the following method: [00461 1. Performing the process of rust removing and the process of texturing to the mining hydraulic support column. [0047] 2. Mounting the mining hydraulic support column into the laser process machine which is a semiconductor laser process machine, i.e. a laser process machine with a semiconductor laser. [00481 3. Under the cooperation of the rotary motion of the main shaft C and the feeding motion of the linear shaft of the laser head X, powder feeding and laser cladding are carried out simultaneously in one process step. The output power of the semiconductor laser is 4000W, the distance from the laser beam outlet of the semiconductor laser to the surface of the hydraulic support column is 200mm, the linear scanning velocity of the laser beam is 540mm/min, and the laser beam is a 16*2 rectangular spot (with a length of 16mm and a width of 2mm). Performing the cladding in a scanning cladding manner. 100491 The adopted composition for laser cladding is in powder form with particle size in the range of 44-178 j. m. The composition includes 0.05% of C, 1.5% of Si, 0.4% of Mn, 15.8% of Cr, 4.0% of Ni, residual amount of Fe and few unavoidable impurities. The alloy powder for laser cladding is fed at the powder feeding speed of 38-40g/min. [00501 4. performing the machining. [00511 It should be noted that in the embodiment, the total installed power of the semiconductor laser is 45KWX (kilowatt), the continuous power output of the semiconductor laser is 4000W, the absorption efficiency of metallic material (i.e., the absorption efficiency of the column) is 80%, the dimensions of the semiconductor laser is 260mm X 11 8mm X 450mm, the weight of the semiconductor laser is 27kg, and the continuous working time can achieve 15000 hours. [00521 In the embodiment, the heat absorbed by the metallic material is 3200KW. [00531 The following are performance indexes tested in the experiments and tests to the obtained column: [00541 1. No cracks. [00551 2. The hardness of the cladding layer can exceed 45 HRC, the service life in mines is over 5 years, the bonding strength between the cladding layer and the column body can exceed 31 OMPa, and the salt spray resistance can be maintained over 96 hours. 100561 With regard to the service life, the column has been promoted and used in XINJULONG ENERGY CO., LTD. of XIN WEN MINING GROUP with good effects. The column has been used at the mining face for four years without any quality problem. [00571 With regard to the experiment of salt spray resistance, China National Standard GB/Ti 0125 1997 is adopted, and the reagent used in the experiment is aqueous solution of sodium chloride with the concentration of 50g/L± 5g/L, a PH value of 6.5-7.2, and a temperature of 35 C i2'C. [00581 The cost is low because of the low content of Ni in the embodiment. 100591 Second embodiment [00601 The embodiment is a laser cladding method for mining hydraulic support column. [00611 The hydraulic support column used in the embodiment is a mining hydraulic support column used by XINJULONG ENERGY CO., LTD. of XINWEN MINING GROUP. The column is a hydraulic support column with a body of 27SiMn and a diameter of 400mm. [00621 The laser cladding is performed with the following method: [00631 1. Performing the process of rust removing and the process of texturing to the mining hydraulic support column. 100641 2. Mounting the mining hydraulic support column into the laser process machine which is a semiconductor laser process machine. [00651 3. Under the cooperation of the rotary motion of the main shaft C and the feeding motion of the linear shaft of the laser head X, powder feeding and laser cladding are carried out simultaneously in one process step. The output power of the semiconductor laser is 4000W, the distance from the laser beam outlet of the semiconductor laser to the surface of the hydraulic support column is 250mm, the linear scanning velocity of the laser beam is 600mm/min, and the laser beam is a 16*2 rectangular spot (with a length of 16mm and a width of 2mm). Performing the cladding in a scanning cladding manner. [00661 The adopted composition for laser cladding is in powder form with particle size in the range of 44-178 p m. The composition includes 0.15% of C, 1.0% of Si, 0.8% of Mn, 15.0% of Cr. 4.5% of Ni, residual amount of Fe and unavoidable impurities. The alloy powder for laser cladding is fed at the powder feeding speed of 38-40g/min. -6- [00671 4. Performing the machining. [00681 It should be noted that in the embodiment, the total installed power of the semiconductor laser is 45KW (kilowatt), the continuous power output of the semiconductor laser is 4000W, the absorption efficiency of metallic material is 80%, the dimensions of the semiconductor laser is 260mm X 118mm X 450mm, the weight of the semiconductor laser is 27kg, and the continuous working time can achieve 15000 hours. [00691 The following are performance indexes tested in the experiments and tests to the obtained column: [00701 1. No cracks. [00711 2. The hardness of the cladding layer can exceed 45 HRC, the service life in mines is over 5 years, the bonding strength between the cladding layer and the column body can exceed 31 OMPa, and the salt spray resistance can be maintained over 96 hours. 100721 Third embodiment [00731 The embodiment is a laser cladding method for mining hydraulic support column. [00741 The hydraulic support column used in the embodiment is a mining hydraulic support column used by XINJULONG ENERGY CO., LTD. of XINWEN MINING GROUP. The column is a hydraulic support column with a body of 27SiMn and a diameter of 300mm. [00751 The laser cladding is performed with the following method: [00761 1. Performing the process of rust removing and the process of texturing to the mining hydraulic support column. 100771 2. Mounting the mining hydraulic support column into the laser process machine which is a semiconductor laser process machine, [00781 3. Under the cooperation of the rotary motion of the main shaft C and the feeding motion of the linear shaft of the laser head X, powder feeding and laser cladding are carried out simultaneously in one process step. The output power of the semiconductor laser is 4000W, the distance from the laser beam outlet of the semiconductor laser to the surface of the hydraulic support column is 250mm., the linear scanning velocity of the laser beam is 600mm/min, and the laser beam is a 16*2 rectangular spot (with a length of 16mm and a width of 2mm). Performing the cladding in a scanning cladding manner. [00791 The adopted composition for laser cladding is in powder form with particle size in the range of 44-178 p in. The composition includes 0.15% of C, 1.0% of Si, 0.8% of Mn, 18.0% of Cr, 22.0% of Ni, residual amount of Fe and unavoidable impurities. The alloy powder for laser cladding is fed at the powder feeding speed of 38-40g/min. '-I7- [00801 4. Performing the machining. [00811 It should be noted that in the embodiment, the total installed power of the semiconductor laser is 45KW, the continuous power output of the semiconductor laser is 4000W, the absorption efficiency of metallic material is 80%, the dimensions of the semiconductor laser is 260mm X 118mm X 450mm, the weight of the semiconductor laser is 27kg, and the continuous working time can achieve 15000 hours. [00821 The following are performance indexes tested in the experiments and tests to the obtained column: [00831 1. No cracks. [00841 2. The hardness of the cladding layer can exceed 30 HRC, the service life in mines is over 5 years, the bonding strength between the cladding layer and the column body can exceed 31 OMPa, and the salt spray resistance can be maintained over 96 hours. 100851 Embodiment for comparing [00861 The embodiment is a laser cladding method for mining hydraulic support column. [00871 The hydraulic support column used in the embodiment is a mining hydraulic support column used by XINJULONG ENERGY CO., LTD. of XINWEN MINING GROUP. The column is a hydraulic support column with a body of 27SiMn and a diameter of 300mm. [00881 The laser cladding is performed with the following method: [00891 1. Performing the process of rust removing and the process of texturing to the mining hydraulic support column. 100901 2. Mounting the mining hydraulic support column into the laser process machine which is a carbon dioxide laser process machine, i.e. a laser process machine with a carbon dioxide laser. [00911 3. Under the cooperation of the rotary motion of the main shaft C and the feeding motion of the linear shaft of the laser head X, powder feeding and laser cladding are performed in synchronization in one process step. The output power of the carbon dioxide laser is 8000W, the distance from the laser beam outlet of the laser to the surface of the hydraulic support column is 300mm, the linear scanning velocity of laser is 480mm/min, and the laser beam is a 15*2.5 rectangular spot (with a length of 15mm and a width of 2.5mm). Performing the cladding in a scanning cladding manner. [00921 The adopted composition for laser cladding is in powder form with particle size in the range of 44-178 p m. The composition includes 0.02% of C, 1.5% of Si, 0.4% of Mn, 15.8% of Cr, -8- 4.0% of Ni, residual amount of Fe and unavoidable impurities. The alloy powder for laser cladding is fed at the powder feeding speed of 38-40g/min. [00931 4. Performing the machining. [00941 It should be noted that said carbon dioxide laser is a laser functioning with carbon dioxide as gain medium and lighting by means of transition of the carbon dioxide among energy bands. In the embodiment, the total installed power of the carbon dioxide laser is 175KW, the continuous power output of the carbon dioxide laser is 8000W, the absorption efficiency of metallic material (i.e., the absorption efficiency of the column) is 40%, the dimensions of the carbon dioxide laser is 2500mm X 1500mm X 2300mm, the weight of the carbon dioxide laser is 4000kg, and the continuous working time is 24 hours because a vacuum pumping process needs to be performed once in every 24 hours for such laser. [00951 In the embodiment, the heat absorbed by the metallic material is 3200KW. 100961 It can be seen that the carbon dioxide laser is large in size and inconvenient to be operated. In addition, the continuous power output of the carbon dioxide laser cannot be lowered to 4000W, so that power consumption cannot be decreased significantly. [00971 The following are performance indexes tested in the experiments and tests to the obtained column: [00981 1. No cracks. [00991 2 The hardness of the cladding layer can exceed 45 HRC, the service life in mines is over 5 years, the bonding strength between the cladding layer and the column body can exceed 3lOMPa, and the salt spray resistance can be maintained over 96 hours. -9-
    权利要求:
    Claims (6)
    [1] 1. A laser cladding method, characterized in that using laser beam emitted from a semiconductor laser to melt alloy powder for laser cladding on the surface of a hydraulic support column; the semiconductor laser is a laser functioning with semiconductor material as gain medium and lighting by means of transition of the semiconductor material among energy bands.
    [2] 2. The laser cladding method according to Claim 1, characterized in that the distance from a laser beam outlet of the semiconductor laser to the surface of the hydraulic support column is in the range of 150-250mm, and the power density of the laser beam emitted from the semiconductor laser is above 109.38W/mm
    [3] 3. The laser cladding method according to Claim 2, characterized in that the distance from the laser beam outlet of the semiconductor laser to the surface of the hydraulic support column is in the range of 190-220mm, and the power density of the laser beam emitted from the semiconductor laser is above 112.63 W/imm.
    [4] 4. The laser cladding method according to Claim 3, characterized in that the alloy powder for laser cladding is supplied at a speed of 38-40g/min, and the diameter of the alloy powder for laser cladding is in the range of 44-178 i. rn; the laser beam is a rectangular spot with a length of 16mm and a width of 2mm, and the linear scanning velocity of the laser beam is in the range of 540-780mm/min, with the scanning direction of the laser beam perpendicular to the length direction of the rectangular spot.
    [5] 5. The laser cladding method according to Claim 1, characterized in that the alloy powder for laser cladding includes: 0.01-0.15% of C, 0.5%-1.0% of Sl, 0.4%-0.8% of Mn,
    [6] 17.5%-19.5% of Cr, 21%-25% of Ni, - 10- residual amount of Fe and unavoidable impurities; wherein the content of each element above is a content of weight percentage. 6. The laser cladding method according to Claim 1, characterized in that the alloy powder for laser cladding includes: 0.05-0.20% of C, 1.0%-1.5% of Si, 0. 4%-0. 8% of Mn, 15.0%-15.8% of Cr, 4.0%-4.5% of Ni, residual amount of Fe and unavoidable impurities; wherein the content of each element above is a content of weight percentage. 7. The laser cladding method according to any one of Claims 1-6, characterized in that the outer diameter of the hydraulic support column is in the range of 200-400mm. 8. The laser cladding method according to Claim 7, characterized in that the outer diameter of the hydraulic support column is in the range of 350-400mm. - II -
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    同族专利:
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    EP2708621B1|2016-06-15|
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    CN112322996B|2020-10-19|2021-11-30|中国科学院半导体研究所|Alloy powder for steel rail laser cladding strengthening and laser cladding method|
    法律状态:
    2016-01-14| FGA| Letters patent sealed or granted (standard patent)|
    优先权:
    申请号 | 申请日 | 专利标题
    CN201210159369.8A|CN102677045B|2012-05-22|2012-05-22|Laser cladding method|
    CN201210159369.8||2012-05-22||
    PCT/CN2012/001475|WO2013173955A1|2012-05-22|2012-10-31|Laser cladding method|
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