CN103801919A - Manufacturing method for machining tool having good performance - Google Patents
Manufacturing method for machining tool having good performance Download PDFInfo
- Publication number
- CN103801919A CN103801919A CN201310545761.0A CN201310545761A CN103801919A CN 103801919 A CN103801919 A CN 103801919A CN 201310545761 A CN201310545761 A CN 201310545761A CN 103801919 A CN103801919 A CN 103801919A
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- Prior art keywords
- machining tool
- raw material
- hthp
- synthetic
- manufacture method
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P15/00—Making specific metal objects by operations not covered by a single other subclass or a group in this subclass
- B23P15/28—Making specific metal objects by operations not covered by a single other subclass or a group in this subclass cutting tools
Abstract
The invention discloses a manufacturing method for a machining tool having good performance. The manufacturing method comprises steps as follows: 54% of diamond powder and 46% of titanium are mixed uniformly, a catalyst accounting for 0.37% of total raw material amount is added, the materials are placed into a vacuum furnace for maintaining and then placed into a cubic synthetic diamond press for high-temperature and high-pressure synthesis and cover an alloy matrix after pressure relief to obtain a diamond compact, and after machine shaping, the diamond compact is mounted on a toolframe to manufacture the machining tool. The diamond compact prepared with the method is good in stability and impact toughness, high in abrasive resistance and low in abrasive ratio.
Description
Technical field
The present invention relates to a kind of manufacture method of machining tool.
Background technology
Machining tool extensively adopts diamond compact to form at present.Diamond is with its distinctive high rigidity, high elastic modulus, high heat conductance.At present, machining tool is take impregnated single-crystal diamond as main, and sintering polycrystalline diamond instrument is just surging forward.Sintering polycrystalline diamond, in the mixture mode of single-crystalline diamond and metal dust or to cover diamond compact that prealloy thin slice mode forms on single-crystalline diamond as main.Tool has good wearability diamond compact (Polycrystalline Diamond Compound, referred to as PDC), heat endurance, compression strength and toughness.But, utilize prior art to manufacture diamond compact, and then the performance that makes machining tool still can not meet people's needs completely, people wish to obtain the manufacture method of the better machining tool of performance.
Summary of the invention
The technical problem to be solved in the present invention is to provide the manufacture method of a kind of good stability, wearability is high, wear resistance ratio is low machining tool.In order to address the above problem, the technical solution used in the present invention is:
The manufacture method that the invention provides a kind of machining tool, said method comprising the steps of:
A, raw material composition: represent with weight percentage, the raw material adopting consists of bortz powder 54% and titanium 46%;
B, take bortz powder and titanium according to the raw material composition described in step a, mix the rear catalyst that accounts for total raw material amount 0.37% that adds in addition, its raw material and catalyst are packed in the synthetic mould of carbon;
C, then synthetic the carbon that raw material and catalyst are housed mould is put into vacuum drying oven and keep 64~68 minutes; In described vacuum drying oven, vacuum is 0.0009~0.0012Pa, and temperature is 100~150 ℃;
D, step b is vacuumized to the semi-finished product that obtain after heating put into diamond hexa-orientation press to carry out HTHP synthetic, in HTHP building-up process, controlling electric current is 595~605A, heat time is 64~66s, and pressure is 0.8~1.2 ten thousand kilogram, and the dwell time is 98~102s;
After e, HTHP are synthetic, carry out release, after release, cover on alloy substrate and obtain diamond compact, after machine-shaping, be arranged on and on toolframe, make machining tool.
According to the manufacture method of above-mentioned machining tool, catalyst described in step b is boron.
According to the manufacture method of above-mentioned machining tool, in the building-up process of HTHP described in steps d, controlling electric current is 600A, and the heat time is 65s, and pressure is 1.0 ten thousand kilograms, and the dwell time is 100s.
Positive beneficial effect of the present invention:
The present invention has adopted special mixed material and catalyst and proportioning thereof, the machining tool being prepared from according to the method, and toughness is good, has high wearability.The wear resistance ratio of product of the present invention is lower, has higher grinding efficiency than natural diamond.In addition, the diamond compact that utilizes technical solution of the present invention to be prepared from, product self-sharpening can be good, and grinding efficiency is high.
The specific embodiment:
Following examples only, in order to further illustrate the present invention, do not limit content of the present invention.
Embodiment 1:
A processing method for machining tool, the detailed step of described method is as follows:
A, raw material composition: represent with weight percentage, the raw material adopting consists of bortz powder 54% and titanium 46%; Wherein 54% bortz powder is made up of 40% W20 bortz powder, 35% W15 bortz powder and 25% W5~7 bortz powder;
B, take bortz powder and titanium according to the raw material composition described in step a, mix the rear boron that accounts for total raw material amount 0.37% that adds in addition, its raw material and boron are packed in the synthetic mould of carbon;
C, then synthetic the carbon that raw material and boron are housed mould is put into vacuum drying oven and keep 66 minutes; In described vacuum drying oven, vacuum is 0.001Pa, and temperature is 120 ℃;
D, step b is vacuumized to the semi-finished product that obtain after heating put into diamond hexa-orientation press to carry out HTHP synthetic, in HTHP building-up process, controlling electric current is 600A, and the heat time is 65s, and pressure is 1.0 ten thousand kilograms, and the dwell time is 100s;
After e, HTHP are synthetic, carry out release, after release, obtain diamond compact, after machine-shaping, be arranged on and on toolframe, make machining tool.
In addition to the implementation, the present invention can also be according to embodiment manufacture below, and it is lower slightly that the diamond compact performance making according to following method is compared above-described embodiment, but improves than still having in prior art significantly.
Embodiment 2:
A processing method for machining tool, the detailed step of described method is as follows:
A, raw material composition: represent with weight percentage, the raw material adopting consists of bortz powder 56% and titanium 44%; Wherein 56% bortz powder is made up of 40% W20 bortz powder, 35% W15 bortz powder and 25% W5~7 bortz powder;
B, take bortz powder and titanium according to the raw material composition described in step a, mix the rear boron that accounts for total raw material amount 0.35% that adds in addition, its raw material and boron are packed in the synthetic mould of carbon;
C, then synthetic the carbon that raw material and boron are housed mould is put into vacuum drying oven and keep 64 minutes; In described vacuum drying oven, vacuum is 0.0009Pa, and temperature is 100 ℃;
D, step b is vacuumized to the semi-finished product that obtain after heating put into diamond hexa-orientation press to carry out HTHP synthetic, in HTHP building-up process, controlling electric current is 595A, and the heat time is 64s, and pressure is 0.9 ten thousand kilograms, and the dwell time is 98s;
After e, HTHP are synthetic, carry out release, after release, obtain diamond compact, after machine-shaping, be arranged on and on toolframe, make machining tool.
Embodiment 3:
A processing method for machining tool, the detailed step of described method is as follows:
A, raw material composition: represent with weight percentage, the raw material adopting consists of bortz powder 56% and titanium 44%; Wherein 56% bortz powder is made up of 40% W20 bortz powder, 35% W15 bortz powder and 25% W5~7 bortz powder;
B, take bortz powder and titanium according to the raw material composition described in step a, mix the rear boron that accounts for total raw material amount 0.39% that adds in addition, its raw material and boron are packed in the synthetic mould of carbon;
C, then synthetic the carbon that raw material and boron are housed mould is put into vacuum drying oven and keep 68 minutes; In described vacuum drying oven, vacuum is 0.0012Pa, and temperature is 150 ℃;
D, step b is vacuumized to the semi-finished product that obtain after heating put into diamond hexa-orientation press to carry out HTHP synthetic, in HTHP building-up process, controlling electric current is 605A, and the heat time is 66s, and pressure is 1.2 ten thousand kilograms, and the dwell time is 102s;
After e, HTHP are synthetic, carry out release, after release, obtain diamond compact, after machine-shaping, be arranged on and on toolframe, make machining tool.
Embodiment 4:
A processing method for machining tool, the detailed step of described method is as follows:
A, raw material composition: represent with weight percentage, the raw material adopting consists of bortz powder 55% and titanium 45%; Wherein 55% bortz powder is made up of 40% W20 bortz powder, 35% W15 bortz powder and 25% W5~7 bortz powder;
B, take bortz powder and titanium according to the raw material composition described in step a, mix the rear boron that accounts for total raw material amount 0.38% that adds in addition, its raw material and boron are packed in the synthetic mould of carbon;
C, then synthetic the carbon that raw material and boron are housed mould is put into vacuum drying oven and keep 65 minutes; In described vacuum drying oven, vacuum is 0.001Pa, and temperature is 130 ℃;
D, step b is vacuumized to the semi-finished product that obtain after heating put into diamond hexa-orientation press to carry out HTHP synthetic, in HTHP building-up process, controlling electric current is 602A, and the heat time is 65s, and pressure is 1.1 ten thousand kilograms, and the dwell time is 101s;
After e, HTHP are synthetic, carry out release, after release, obtain diamond compact, after machine-shaping, be arranged on and on toolframe, make machining tool.
Embodiment 5:
A processing method for machining tool, the detailed step of described method is as follows:
A, raw material composition: represent with weight percentage, the raw material adopting consists of bortz powder 54% and titanium 46%; Wherein 54% bortz powder is made up of 40% W20 bortz powder, 35% W15 bortz powder and 25% W5~7 bortz powder;
B, take bortz powder and titanium according to the raw material composition described in step a, mix the rear boron that accounts for total raw material amount 0.36% that adds in addition, its raw material and boron are packed in the synthetic mould of carbon;
C, then synthetic the carbon that raw material and boron are housed mould is put into vacuum drying oven and keep 66 minutes; In described vacuum drying oven, vacuum is 0.0009Pa, and temperature is 110 ℃;
D, step b is vacuumized to the semi-finished product that obtain after heating put into diamond hexa-orientation press to carry out HTHP synthetic, in HTHP building-up process, controlling electric current is 602A, and the heat time is 66s, and pressure is 1.05 ten thousand kilograms, and the dwell time is 101s;
After e, HTHP are synthetic, carry out release, after release, obtain diamond compact, after machine-shaping, be arranged on and on toolframe, make machining tool.
The present invention also can have other various embodiments; in the situation that not deviating from spirit of the present invention and essence thereof; those of ordinary skill in the art are when making according to the present invention various corresponding changes and distortion, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.
Claims (6)
1. a manufacture method for machining tool, said method comprising the steps of:
A, raw material composition: represent with weight percentage, the raw material adopting consists of bortz powder 54% and titanium 46%;
B, take bortz powder and titanium according to the raw material composition described in step a, mix the rear catalyst that accounts for total raw material amount 0.37% that adds in addition, its raw material and catalyst are packed in the synthetic mould of carbon;
C, then synthetic the carbon that raw material and catalyst are housed mould is put into vacuum drying oven and keep 64~68 minutes; In described vacuum drying oven, vacuum is 0.0009~0.0012Pa, and temperature is 100~150 ℃;
D, step b is vacuumized to the semi-finished product that obtain after heating put into diamond hexa-orientation press to carry out HTHP synthetic, in HTHP building-up process, controlling electric current is 595~605A, heat time is 64~66s, and pressure is 0.8~1.2 ten thousand kilogram, and the dwell time is 98~102s;
After e, HTHP are synthetic, carry out release, after release, cover on alloy substrate and obtain diamond compact, after machine-shaping, be arranged on and on toolframe, make machining tool.
2. the manufacture method of machining tool according to claim 1, is characterized in that: catalyst described in step b is boron.
3. the manufacture method of machining tool according to claim 1, is characterized in that: in the building-up process of HTHP described in steps d, controlling electric current is 600A.
4. the manufacture method of machining tool according to claim 1, is characterized in that: in the building-up process of HTHP described in steps d, the heat time is 65s.
5. the manufacture method of machining tool according to claim 1, is characterized in that: in the building-up process of HTHP described in steps d, pressure is 1.0 ten thousand kilograms.
6. the manufacture method of machining tool according to claim 1, is characterized in that: in the building-up process of HTHP described in steps d, the dwell time is 100s.
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CN201310545761.0A CN103801919A (en) | 2013-11-06 | 2013-11-06 | Manufacturing method for machining tool having good performance |
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CN201310545761.0A CN103801919A (en) | 2013-11-06 | 2013-11-06 | Manufacturing method for machining tool having good performance |
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4403015A (en) * | 1979-10-06 | 1983-09-06 | Sumitomo Electric Industries, Ltd. | Compound sintered compact for use in a tool and the method for producing the same |
CN101940893A (en) * | 2010-10-28 | 2011-01-12 | 郑州三和金刚石有限公司 | Method for processing polycrystalline diamond for diamond processing |
-
2013
- 2013-11-06 CN CN201310545761.0A patent/CN103801919A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4403015A (en) * | 1979-10-06 | 1983-09-06 | Sumitomo Electric Industries, Ltd. | Compound sintered compact for use in a tool and the method for producing the same |
CN101940893A (en) * | 2010-10-28 | 2011-01-12 | 郑州三和金刚石有限公司 | Method for processing polycrystalline diamond for diamond processing |
Non-Patent Citations (1)
Title |
---|
徐克里等: "《钻探工程》", 31 January 2008 * |
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Application publication date: 20140521 |