CN1455017A - Method of coating diamond on gradient hard alloy with cobalt-lean surface layer - Google Patents
Method of coating diamond on gradient hard alloy with cobalt-lean surface layer Download PDFInfo
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- CN1455017A CN1455017A CN 03117958 CN03117958A CN1455017A CN 1455017 A CN1455017 A CN 1455017A CN 03117958 CN03117958 CN 03117958 CN 03117958 A CN03117958 A CN 03117958A CN 1455017 A CN1455017 A CN 1455017A
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Abstract
The method for coating diamond layer on the gradient hard alloy with surface layer containing low cobalt content adopts the gradient hard alloy with poor cobalt surface layer as base body, the thickness of its surface layer is 0.1-1 mm, in which the cobalt content is lower than above one time as compared with that of its interior, gernally less than 3.5 wt%, said surface layer has a gradient structure from surface layer with small cobalt content to its interior layer with increased cobalt content, under the surface layer it is rich-cobalt layer, and then it is rigid core portion of the hard alloy. The coating method includes the following steps: polishing hard alloy tool, washing with ethyl alcohol or acetone suspnesion with 10 mg/ml diamond powder, ultrasonic cleaning it with ethyl alcohol or acetone.
Description
One, technical field
The present invention relates to a kind of method of on the gradient hard alloy of the poor cobalt of upper layer, carrying out diamond coatings, belong to the diamond coatings instrument and make the field.
Two, background technology
Because diamond has characteristics such as high rigidity, high thermal conductivity, low-friction coefficient, chemical stability are good, be widely used in many aspects of industrial circle already as tool material.But single-crystal diamond is rare expensive, polycrystalline diamond manufacturing cost height, is difficult to use in the manufacturing of complex shaped cutter, therefore, impels the investigator to seek new method for producing diamond tool.Since the eighties, developed employing chemical Vapor deposition process (CVD) and made the diamond coatings instrument, this new-type cutter machined layer is containing metal or nonmetal wedding agent not, and low cost of manufacture can be used for complex shaped cutter, thereby is subjected to increasing attention.But the problem that perplexs investigator's maximum for a long time is diamond coatings and hard alloy substrate poor adhesion.Its major cause comes from the influence of the cobalt of conduct bonding phase in the Wimet.The negative effect of cobalt shows as: postpone and hinder adamantine nucleation and growth; The formation of catalysis non-diamond carbon example graphite, amorphous carbon; In long-time diamond film growth process, dissolve diamond coatings etc.In order to improve diamond coatings and hard alloy substrate tack, research paper these years, patent are very many, Kuang Tongchun summed up in 18 the 1st phases of volume of " Wimet " calendar year 2001 " the substrate pretreated method progress of CVD diamond coatings blade ", the research thinking is divided into two classes, the one, adopt the matrix surface pretreatment process, main purpose is to reduce the matrix surface cobalt contents, improve the matrix surface diamond nucleation, using method comprises that chemistry takes off cobalt method, plasma etching method, plasma body co-permeation method, laser ablation method etc.Yet under the long-time high temperature action in the diamond coatings process of growth, cobalt still can influence diamond coatings and matrix adheres to a certain extent to surface diffusion.The 2nd, apply the method for transition layer, main purpose is to improve the stress at diamond coatings and body material interface, stop simultaneously cobalt in the diamond coatings process of growth to surface diffusion, present sedimentary transition layer has TiC, W/WC, tungsten-diamond component gradient layer, diamond-film-like, Baji-tube or C
60, C
70Coating etc.From the patent aspect, that relevant diamond coatings instrument has the greatest impact is laid-open U.S. Patents U.S.5567526 on October 22nd, 1996 " Cemented Tungsten Carbide Substrates havingadherent Diamond Films Coating Thereon " such as Michael G.Peters, it is disclosed to be to adopt chemical reagent, and routine Murakami reagent, nitric acid, sulfuric acid, hydrogen peroxide etc. carry out a series of methods of handling back refabrication diamond coatings to unpolished hard alloy substrate.Other patent also is about various surface treatments or applies the transition layer method.
In a word, surperficial poor cobalt is the prerequisite that obtains the high adhesion strength diamond coating on the hard alloy substrate.The various surfaces that past adopts go the cobalt method all to exist weakness in actual applications, though go the cobalt method can remove the cobalt on top layer more neatly as aciding, electrolytic corrosion, hydrogen-oxygen plasma etching etc., but can make the top layer because of losing the cobalt short texture simultaneously, the CVD diamond coatings of refabrication is usually cracked or peel off because of originating from defective in the loose surface layer; Though laser ablation goes the cobalt method can reach the purpose that cobalt and alligatoring are gone in the surface simultaneously, and surface structure also can be because of remelting becomes closely knit, and this processing is unsuitable for complicated shape matrix and expense costliness, does not possess the production practical value; Though the method for surface-coated transition layer can not contained the new upper layer of cobalt, complex process, cost height, and poor reliability at matrix surface.
Three, summary of the invention
The objective of the invention is provides a kind of method of carrying out diamond coatings on the gradient hard alloy of the poor cobalt of upper layer at the deficiencies in the prior art, not needing to be characterized in the matrix surface pre-treatment or to apply the diffusion that the transition layer method is removed cobalt or stopped cobalt, and in the diamond coatings process of growth cobalt of matrix surface to Wimet internal migration rather than surface enrichment.
Purpose of the present invention is realized by following technical measures:
1, adopts the gradient hard alloy matrix of the poor cobalt of upper layer, this Wimet has three-decker: cobalt contents is lower more than one times than inner in the 0.1-1mm upper layer, be generally less than 3.5wt%, and from the surface to inside, present cobalt, be called poor cobalt layer by many gradient-structures that reduces; Near surface layer with interior be rich cobalt layer; Be the rigidity core of Wimet then.
2, the gradient hard alloy with the poor cobalt of upper layer is processed into the regulation shape by general carbamide tool processing way, adopts diamond disk to polish then.
3, the carbamide tool after the polishing, after cleaning up according to a conventional method, with the ethanol or the ultrasonic cleaning of acetone suspension of 10mg/ml bortz powder, again with ethanol or acetone ultrasonic cleaning, it is stand-by to dry up the back.
4, cleaned sample is put on the base station of CVD reaction chamber, reaction chamber vacuumizes, and opens microwave generator.Reactant gases is carbonaceous gas (routine CH
4, C
2H
2), hydrogen, argon gas etc. are used for the gas commonly used of diamond film preparation, carbonaceous gas concentration 0.1-5vol%, substrate temperature 600-1000 ℃, air pressure 2-10KPa, microwave output power 600-1200W (deciding according to microwave source power).Process of growth is turn-offed source of the gas and microwave generator after proceeding to the coat-thickness of expecting to reach.
Diamond coatings thickness can be 1-50 μ m.In the diamond coatings process of growth, the cobalt of matrix surface is to Wimet internal migration rather than surface enrichment, diamond coatings growth back carbide surface cobalt contents is 0.1-2.5wt% than lower before growing, and helps improving diamond coatings and hard alloy substrate bonding strength.
Diamond coating method has microwave plasma CVD technique, heated filament CVD method or dc arc plasma jet.
Wimet is the gradient hard alloy of tungsten carbide-base such as WC-Co, WC-Ti-Co and/or the poor cobalt of WC-Ta-Co upper layer.
The present invention has the following advantages:
1, the special construction Wimet of Cai Yonging not only keeps even surpasses similar trade mark Wimet performance, the graded alloy of the poor cobalt of routine YG6 (WC-6%Co) upper layer, and wear resistance than conventional YG6 alloy is good, and intensity can reach the suitable strength value among the conventional YG6.
2, cobalt presents Gradient distribution in the special construction carbide surface layer of Cai Yonging, the low 3.5wt% that is generally less than of top layer cobalt contents, but the densification that can keep diamond nucleation and the desired substrate material surface structure of growth, and in the diamond coatings process of growth, the cobalt of matrix surface is to Wimet internal migration rather than surface enrichment.Diamond coatings growth back carbide surface cobalt contents arrives the top layer simultaneously and removes cobalt and stop the purpose of cobalt to the top layer enrichment, thereby improved diamond coatings and hard alloy substrate bonding strength than lower before growing.
3, be used for this special construction Wimet carbamide tool processing way processing routinely of diamond coatings, be not subjected to the restriction of matrix surface shape, do not need additional processing technology again, for example matrix surface pre-treatment or apply the diffusion that the transition layer method is removed cobalt or stopped cobalt, therefore the present invention realizes that diamond coatings is easier, economical, is easy to industrialization.
4, adopt diamond films such as microwave plasma CVD technique, heated filament CVD method, dc arc plasma jet preparation method commonly used to prepare diamond coatings, need not improve greatly equipment, technology.
Four, description of drawings
Fig. 1 is a gradient hard alloy section cobalt contents distribution plan (electron probe microanalysis).
Shown among the figure that cobalt contents presents tangible Gradient distribution in Wimet is from the surface to internal layer 0.5mm thickness, top layer cobalt (Co) content is starkly lower than internal layer, and tungsten (W) content is equally distributed.
Five, embodiment
Below by embodiment the present invention is specifically described, be necessary to be pointed out that at this present embodiment only is used for the present invention is further specified, can not be interpreted as limitation of the scope of the invention, the person skilled in the art in this field can make some nonessential improvement and adjustment according to the content of foregoing invention.
Embodiment 1:
The WC-6%Co gradient hard alloy A118 blade of the poor cobalt of one upper layer, after the diamond disk polishing, electron probe test cobalt surface content is 3.19wt%, and poor cobalt layer thickness 0.5mm is after cleaning up according to a conventional method, with the ethanol of 10mg/ml bortz powder or the ultrasonic cleaning of acetone suspension 30 minutes, with ethanol or acetone ultrasonic cleaning 5 minutes, dry up again, place antenna bell-jar microwave plasma CVD reaction chamber, reaction chamber vacuumizes, and opens microwave generator.At CH
4/ H
2Be 1.0vol%, air pressure 5.3KPa, microwave output power 1000W condition deposit 10 hours, coat-thickness is 5 microns.Deposition back coating and hard alloy substrate good attachment.Utilize the diamond coatings shock resistance poor, release coating exposes matrix surface, and the test surfaces cobalt contents is 1.0%, than low before the deposition.Chemistry takes off the taking-up after 10 hours of cobalt hard alloy deposition under the same terms, and partial coating peels off naturally, deposition front surface cobalt contents 0.2wt%, and it is 1.85wt% that the deposition back raises.
Embodiment 2:
Prolong depositing time to 20 hour under the processing of example 1, mode of deposition, coat-thickness is 10 microns, deposition back coating and hard alloy substrate good attachment, cobalt surface content 1.14%.
Embodiment 3:
Under the processing of example 1, mode of deposition, adopt 1.0%CH
4/ 97%H
2/ 2.0%Ar source of the gas deposits 10 hours, and coat-thickness is 6 microns, deposition back coating and hard alloy substrate good attachment, cobalt surface content 1.21wt%.
Embodiment 4:
Processing, mode of deposition at example 1 descend low microwave output rating to 800W, deposit 6 hours, and coat-thickness is 3 microns, deposition back coating and hard alloy substrate good attachment, cobalt surface content 1.35wt%.
Embodiment 5:
The WC-14%Ti-6%Co gradient hard alloy A118 blade of the poor cobalt of one upper layer, after the diamond disk polishing, upper layer cobalt contents 3.42wt%, poor cobalt layer thickness 0.5mm, the condition of pressing example 1 is handled, deposition, deposition back coating and hard alloy substrate good attachment, upper layer cobalt contents 1.89wt%.
Embodiment 6:
According to the sample and the pretreatment condition of example 1, place electronics to assist heated filament CVD method reaction chamber in sample, at filament temperature 2573K, reaction pressure 7KPa, DC bias current density 5000A/m
2, CH
4/ H
2Be 3vol%, filament and sample deposit 5 hours apart under the 0.08m condition, and coat-thickness is 15 microns, electron probe test matrix surface cobalt contents 1.43%.
Claims (3)
1, carry out the method for diamond coatings on the gradient hard alloy of the poor cobalt of upper layer, it is characterized in that:
(1) the gradient hard alloy matrix of the poor cobalt of employing upper layer, this Wimet is lower more than one times than inner at 0.1-1mm upper layer cobalt contents, be generally less than 3.5wt%, upper layer presents cobalt by many gradient-structures that reduces from the surface to inside, upper layer with interior be rich cobalt layer, be the rigidity core of Wimet then.
(2) gradient hard alloy of the poor cobalt of upper layer carbamide tool processing method processing routinely.
(3) polish with diamond disk, the gradient hard alloy after the polishing is with 10mg/ml bortz powder ethanol or the ultrasonic cleaning of acetone suspension, and again with ethanol or acetone ultrasonic cleaning, it is stand-by to dry up the back.
(4) cleaned sample is put on the base station of CVD reaction chamber, reaction chamber vacuumizes, and opens microwave generator.Reactant gases is carbonaceous gas (routine CH
4, C
2H
2Deng), hydrogen, argon gas etc. are used for the gas commonly used of diamond film preparation, carbonaceous gas concentration 0.1-5vol%, substrate temperature 600-1000 ℃, air pressure 2-10KPa, microwave output power 600-1200W (deciding according to microwave source power).Process of growth is turn-offed source of the gas and microwave generator after proceeding to the coat-thickness of expecting to reach.
Coat-thickness can be 1-50 μ m, and lower before the carbide surface cobalt contents ratio growth of diamond coatings growth back is 0.1-2.5wt%.
2, carry out the method for diamond coatings on the gradient hard alloy according to the poor cobalt of the described upper layer of claim 1, it is characterized in that the preparation method of diamond coatings is microwave plasma CVD technique, heated filament CVD method or dc arc plasma jet.
3, carry out the method for diamond coatings on the gradient hard alloy according to the poor cobalt of the described upper layer of claim 1, it is characterized in that, Wimet is a tungsten carbide-base, as the gradient hard alloy of WC-Co, WC-Ti-Co and/or the poor cobalt of WC-Ta-Co upper layer.
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CN102031435A (en) * | 2010-11-02 | 2011-04-27 | 中南大学 | Preparation technology of hard alloy with gradiently-changed cobalt content at surface layer |
CN102399092A (en) * | 2010-09-09 | 2012-04-04 | 西南科技大学 | Preparation method for nitrogen-doped nano-diamond thin film |
CN101830733B (en) * | 2009-03-13 | 2012-07-25 | 西南科技大学 | Method for preparing ultra nanometer diamond coating of ceramic valve core |
CN106591799A (en) * | 2016-12-28 | 2017-04-26 | 富耐克超硬材料股份有限公司 | Preparation method of diamond coating layer and diamond coating layer blade |
CN106929818A (en) * | 2017-03-02 | 2017-07-07 | 同济大学 | A kind of process that diamond coatings are grown based on impregnated diamond in-situ deposition |
WO2017136970A1 (en) * | 2016-02-11 | 2017-08-17 | 广东工业大学 | Tialsizrn composite coating, graded structure ultrafine hard alloy cutting tool with the composite coating, and method for manufacturing same |
WO2017136968A1 (en) * | 2016-02-11 | 2017-08-17 | 广东工业大学 | Aluminum oxide composite coating, graded structure ultrafine hard alloy cutting tool with the composite coating, and method for manufacturing same |
CN108823549A (en) * | 2018-07-05 | 2018-11-16 | 四川纳涂科技有限公司 | A kind of cvd diamond coating substrate surface preprocess method |
CN109434115A (en) * | 2018-11-13 | 2019-03-08 | 歌尔股份有限公司 | A kind of multi-gradient hard alloy punch head |
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CN116445884A (en) * | 2023-02-22 | 2023-07-18 | 北京爱克瑞特金刚石工具有限公司 | Diamond coating, homogenizing processor attached with diamond coating and preparation method of homogenizing processor |
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2003
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Cited By (15)
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CN101830733B (en) * | 2009-03-13 | 2012-07-25 | 西南科技大学 | Method for preparing ultra nanometer diamond coating of ceramic valve core |
CN102399092A (en) * | 2010-09-09 | 2012-04-04 | 西南科技大学 | Preparation method for nitrogen-doped nano-diamond thin film |
CN102399092B (en) * | 2010-09-09 | 2013-01-09 | 西南科技大学 | Preparation method for nitrogen-doped nano-diamond thin film |
CN102031435B (en) * | 2010-11-02 | 2012-07-25 | 中南大学 | Preparation technology of hard alloy with gradiently-changed cobalt content at surface layer |
CN102031435A (en) * | 2010-11-02 | 2011-04-27 | 中南大学 | Preparation technology of hard alloy with gradiently-changed cobalt content at surface layer |
WO2017136970A1 (en) * | 2016-02-11 | 2017-08-17 | 广东工业大学 | Tialsizrn composite coating, graded structure ultrafine hard alloy cutting tool with the composite coating, and method for manufacturing same |
WO2017136968A1 (en) * | 2016-02-11 | 2017-08-17 | 广东工业大学 | Aluminum oxide composite coating, graded structure ultrafine hard alloy cutting tool with the composite coating, and method for manufacturing same |
CN106591799B (en) * | 2016-12-28 | 2019-02-22 | 富耐克超硬材料股份有限公司 | The preparation method and diamond coatings blade of diamond coatings |
CN106591799A (en) * | 2016-12-28 | 2017-04-26 | 富耐克超硬材料股份有限公司 | Preparation method of diamond coating layer and diamond coating layer blade |
CN106929818A (en) * | 2017-03-02 | 2017-07-07 | 同济大学 | A kind of process that diamond coatings are grown based on impregnated diamond in-situ deposition |
CN108823549A (en) * | 2018-07-05 | 2018-11-16 | 四川纳涂科技有限公司 | A kind of cvd diamond coating substrate surface preprocess method |
CN109434115A (en) * | 2018-11-13 | 2019-03-08 | 歌尔股份有限公司 | A kind of multi-gradient hard alloy punch head |
CN111036342A (en) * | 2019-12-05 | 2020-04-21 | 四川大学 | Preparation device and preparation process of polymer-based spherical powder |
CN116445884A (en) * | 2023-02-22 | 2023-07-18 | 北京爱克瑞特金刚石工具有限公司 | Diamond coating, homogenizing processor attached with diamond coating and preparation method of homogenizing processor |
CN116445884B (en) * | 2023-02-22 | 2024-01-26 | 北京爱克瑞特金刚石工具有限公司 | Diamond coating, homogenizing processor attached with diamond coating and preparation method of homogenizing processor |
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