CN105063420A - Preparation method for medical titanium alloy bar with strong antibacterial ability - Google Patents

Preparation method for medical titanium alloy bar with strong antibacterial ability Download PDF

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CN105063420A
CN105063420A CN201510476578.9A CN201510476578A CN105063420A CN 105063420 A CN105063420 A CN 105063420A CN 201510476578 A CN201510476578 A CN 201510476578A CN 105063420 A CN105063420 A CN 105063420A
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titanium alloy
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CN105063420B (en
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陆春玲
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Tangshan Hongen masterbatch Manufacturing Co., Ltd
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Abstract

The invention discloses a preparation method for a medical titanium alloy bar with strong antibacterial ability. The preparation method comprises the following steps: carrying out ingot blank preparation, forging and forming, carrying out thermal treatment, carrying out surface pre-treatment, carrying out surface coating spraying and the like. According to the preparation method, by optimizing an alloy component design, a forging process, thermal treatment and a spraying process, and refining and combining processes, a preparation process for the medical titanium alloy bar is relatively refined, so that the quality of the alloy is guaranteed, and the mechanical property of the alloy is excellent, and therefore, the medical titanium alloy bar can be used as substitute materials for repairing hard tissues such as bones, joints, artificial dental roots and the like.

Description

The preparation method of the medical titanium alloy bar that a kind of antibacterial ability is strong
Technical field
The present invention relates to the preparation method of the strong medical titanium alloy bar of a kind of antibacterial ability, belong to medical artificial bone preparing technical field.
Background technology
Titanium or titanium alloy because density is low, intensity is high, Young's modulus is low, the advantage such as fine corrosion resistance and good biocompatibility and be widely used in biologic medical field, be the desirable material producing complicated surgical implant.The titanium alloy of early stage Srgery grafting is mainly pure titanium and Ti6Al4V alloy, but going deep into along with application, the deficiency of pure titanium and Ti6Al4V alloy is also found, pure titanium intensity is too low, be unfit to do supporting part implant into body, although Ti6Al4V alloy intensity is higher, the V element contained is harmful.Therefore, the medical titanium alloy Ti6Al7Nb substituting V with Nb is developed, and is used to productive manpower joint.
Metal, pottery and macromolecular material are current three large medical joint prosthesis's materials, three kinds of materials respectively have its relative merits: metal and pottery are widely used at negative load medical field, but metal is easy to wear and corrosion, and pottery then fragility is large: the good but wear resistance of macromolecular material snappiness and hardness poor.Titanium alloy is owing to having high strength, toughness and corrosion resistant characteristic thus becoming joint prosthesis's material of new generation.But just the embedding property that connects of a kind of machinery is integrated between titanium alloy and bone, implant is in vivo after long service, and fricative abrasive dust can affect its biologically inert, thus causes local organization inflammation, shortens its work-ing life.Therefore surface modification is carried out to improve the attention that its biocompatibility causes investigator to titanium alloy.Surface modification is all generally that modified surface generally has good biological activity by adopting various top coat or thin film technique to resistance to wear biocompatible coating for improving the wearability of joint prosthesis, erosion resistance and biocompatibility in metal base surface preparation.
The present invention is directed to the limitation of existing medical joint prosthesis, prepare compound coating at titanium alloy artificial boney joint surfaces, improve surface hardness and the bonding strength of coating, and strengthen biocompatibility, promote further developing of joint prosthesis's technology.
Summary of the invention
The present invention is directed to the problems referred to above and propose a kind of technique refinement, medical titanium alloy bar of good performance.
A preparation method for the medical titanium alloy bar that antibacterial ability is strong, comprises the following steps:
(1) ingot blank preparation: the chemical constitution of described ingot blank is: zirconium 7-10%, iron: 1.5-2.5%, chromium: 0.5-0.8%, gallium: 0.5-0.9%, tin: 0.25-0.75%, hafnium 0.02-0.07%, tantalum 1-2%, aluminium: 1-2%, vanadium: 0.25-0.45%, boron: 0.1-0.18%, cerium: 0.12-0.18%, niobium 4-15%, molybdenum: 9-13%, silver: 0.001-0.005%, surplus is titanium
Prepare burden by alloying constituent mass percent, melting in high vacuum arc heating furnace, abundant stirring, be cast into ingot blank, ingot blank is added in vacuum oven Ar gas shielded to heat-treat, ingot blank is warming up to 920-940 DEG C with 200-250 DEG C/h, insulation 6-10 hour, then cool to 550-580 DEG C with 120-150 DEG C/h, insulation 2-6 hour, then cools to 280-320 DEG C with 80-90 DEG C/h, insulation 2-5 hour, continue to cool to 180-190 DEG C with 50-65 DEG C/h, insulation 2-5 hour, then furnace cooling is to room temperature;
(2) forging molding
Surface-coated: applying one deck at surface of ingot blank is that the coating of main component prevents from being oxidized during high temperature process and increasing lubrication with boron nitride;
With 1000 tons of oil presses, step ingot blank is incubated 1-2 hour at 900-1000 DEG C, adoptwith flat-die forging, final forging temperature 660-720 DEG C, is swaged into the square billet that the length of side is 200-300mm after repeated multiple times;
Be the square billet cool to room temperature of 200-300mm by the length of side, the blank heating after thinning surface defect is out of shape 3-6 time to 900-950 DEG C of jumping-up and pulling, final forging temperature 770-810 DEG C, pass deformation 20-45%, and total deformation adds up 90-130%;
Then forging stock cool to room temperature, after thinning surface defect, is heated to 700-740 DEG C of jumping-up and pulls out forging 3-6 time, pass deformation 15-30%, accumulative total deformation 90-110%;
By the forging stock cool to room temperature that upsetting pull is forged, after thinning surface defect, reheat 680-720 DEG C of jumping-up and pull out forging 2-3 time, pass deformation 40-50%; And the last time pulling forging time chamfered edge, round as a ball;
By upsetting pull forge forging stock cool to room temperature, after thinning surface defect, reheat 730-740 DEG C of chamfered edge, round as a ball, pulling be swaged to the bar that diameter is Ф 40-Ф 80mm;
(3) thermal treatment
Bar is carried out solution treatment in chamber type electric resistance furnace, solid solubility temperature is 860-900 DEG C, solution time is 15-45min, carries out shrend after solid solution, then carries out interrupted aging process: the bar after shrend is added Ar gas shielded in vacuum oven and is heated to 450-480 DEG C, insulation 2-3h, then furnace cooling is to 280-310 DEG C, insulation 3-4h, and then furnace cooling is to 180-220 DEG C, insulation 5-6h, then uses water cooling;
(4) surface preparation: washing: be first clean in the hot water of 90-100 DEG C in temperature by the titanium alloy rod bar after thermal treatment, then cleans with the flowing cool water of room temperature; Sandblasting: dry up titanium alloy rod bar with pressurized air, then blows and sprays quartz sand, and removal machine adds vestige, increases roughness; Alkali cleaning: titanium alloy rod bar be impregnated in temperature in the alkali fusion liquid of 350-550 DEG C, dipping time is 30-60min, described alkali fusion liquid is that 70 ~ 80% sodium hydroxide and 20 ~ 30% SODIUMNITRATE mix and form by weight percent; Pickling: cleanup acid treatment is carried out to Surface of Rod Bar, being immersed in temperature is 15-45min in 40-50 DEG C of pickle solution, wherein: pickle solution consists of (weight): take 98% vitriol oil 20-30 part, HCl 6-8 part of 36.5%, di-alkyl-imidazole hyamine 1-2 part, quadrol 1-3 part, water 30-60 part; Passivation Treatment: the titanium alloy rod bar after pickling be impregnated in temperature at 90 ~ 150 DEG C, concentration is the SODIUMNITRATE of 150 ~ 200g/l, in the aqueous solution of the Sodium Fluoride of 15-45g/l, controls Fe in solution 3+concentration < 20g/l, dipping time is 15-20min;
(5) surface coating injection: coating spraying raw material is (weight part): titanium oxide: 60-80 part, argent: 0.1-1 part; Wollastonite: 15-20 part; Silver suboxide: 0.1-0.5 part; Titanium boride: 2-4 part; Magnesia powder: 4-8 part.Adopt atmospheric plasma spraying technique by after above-mentioned powder mixing, be sprayed on titanium alloy rod bar, plasma spray process parameter is the flow of arc plasma gas Ar is 15-30 standard liter/min, arc plasma gas H 2flow be 15-20 standard liter/min, the flow of powder carrier gas Ar is 0.5-2.5 standard liter/min, and spray distance is 40-60mm, and powder feeding rate is 5-10g/min, and spraying current is 450-600A, and coating thickness is 0.5-3mm; After spraying, titanium alloy rod bar is added in vacuum oven Ar gas shielded to heat-treat, first, be heated 550-650 DEG C, insulation 1-2 hour, then furnace cooling is to 150-200 DEG C, insulation 24-48 hour, then furnace cooling.
Further, the chemical constitution of described ingot blank is: zirconium 8%, niobium 4.8%, iron: 2%, chromium: 0.75%, gallium: 0.65%, tin: 0.34%, hafnium: 0.04%, tantalum: 1.56%, aluminium: 1.45%, vanadium: 0.33%, boron: 0.16%, cerium: 0.14%, molybdenum: 10.2%, silver: 0.0015%, surplus is titanium.
Further, coating spraying raw material consists of (weight part): titanium oxide powder: 70 parts, silver powder: 0.35 part; Wollastonite powder: 18 parts; Oxidation silver powder: 0.2 part; Titanium boride powder: 3 parts; Magnesia powder: 5.6 parts.
Further, pickle solution consists of (weight): take 98% vitriol oil 25 parts, the HCl of 36.5% 7 parts, di-alkyl-imidazole hyamine 1.5 parts, quadrol 1.4 parts, 45 parts, water; Inactivating treatment liquid is: concentration is the aqueous solution of the SODIUMNITRATE of 160g/l, the Sodium Fluoride of 22g/l.
Effect of the present invention is: be optimized titanium alloy component, distortion, surface treatment, heat treating regime, makes the performance of titanium alloy rod bar more excellent; Such technique refinement coordinates, and makes the preparation process refinement more of medical titanium alloy bar, ensure that quality, and alloy mechanical property is excellent, can be used as the equivalent material of the hard tissue repair such as bone, joint and artificial tooth root.
Embodiment
Embodiment 1
A preparation method for the medical titanium alloy bar that antibacterial ability is strong, comprises the following steps:
(1) ingot blank preparation: the chemical constitution of described ingot blank is: zirconium 6.5%, niobium 6.8%, iron: 1.95%, chromium: 0.68%, gallium: 0.72%, tin: 0.38%, hafnium 0.05%, tantalum 1.66%, aluminium: 1.59%, vanadium: 0.28%, boron: 0.165%, cerium: 0.17%, molybdenum: 10.43%, silver: 0.0025%, surplus is titanium;
By alloying constituent mass percent batching, melting in high vacuum arc heating furnace, fully stirs, be cast into ingot blank, ingot blank added in vacuum oven Ar gas shielded and heat-treat, ingot blank is warming up to 930 DEG C with 230 DEG C/h, be incubated 8 hours, then cool to 560 DEG C with 135 DEG C/h, be incubated 4 hours, then cool to 285 DEG C with 85 DEG C/h, be incubated 5 hours, continue to cool to 186 DEG C with 58 DEG C/h, be incubated 2.5 hours, then furnace cooling is to room temperature;
(2) forging molding
Surface-coated: applying one deck at surface of ingot blank is that the coating of main component prevents from being oxidized during high temperature process and increasing lubrication with boron nitride;
With 1000 tons of oil presses, step ingot blank is incubated 1.4 hours at 965 DEG C, adoptwith flat-die forging, final forging temperature 685 DEG C, is swaged into the square billet that the length of side is 260mm after repeated multiple times;
Be the square billet cool to room temperature of 260mm by the length of side, the blank heating after thinning surface defect is to 930 DEG C of jumping-ups and pull out distortion 4 times, final forging temperature 775 DEG C, pass deformation 30%;
Then forging stock cool to room temperature, after thinning surface defect, is heated to 720 DEG C of jumping-ups and pulls out forging 4 times, pass deformation 25%;
By the forging stock cool to room temperature that upsetting pull is forged, after thinning surface defect, reheat 695 DEG C of jumping-ups and pull out forging 3 times, pass deformation 45%; And the last time pulling forging time chamfered edge, round as a ball;
By upsetting pull forge forging stock cool to room temperature, after thinning surface defect, reheat 735 DEG C of chamfered edges, round as a ball, pulling be swaged to the bar that diameter is Ф 45mm;
(3) thermal treatment
Bar is carried out solution treatment in chamber type electric resistance furnace, solid solubility temperature is 880 DEG C, solution time is 20min, carries out shrend after solid solution, then carries out interrupted aging process: the bar after shrend is added Ar gas shielded in vacuum oven and is heated to 460 DEG C, insulation 2.5h, then furnace cooling is to 290 DEG C, insulation 3h, and then furnace cooling is to 185 DEG C, insulation 5.5h, then uses water cooling;
(4) surface preparation: washing: be first clean in the hot water of 90 DEG C in temperature by the titanium alloy rod bar after thermal treatment, then cleans with the flowing pure water of room temperature; Sandblasting: dry up titanium alloy rod bar with pressurized air, then blows and sprays quartz sand, and removal machine adds vestige, increases roughness; Alkali cleaning: titanium alloy rod bar be impregnated in temperature in the alkali fusion liquid of 420 DEG C, dipping time is 35min, described alkali fusion liquid is that 75% sodium hydroxide and 25% SODIUMNITRATE mix and form by weight percent; Pickling: cleanup acid treatment is carried out to Surface of Rod Bar, being immersed in temperature is 18min in 45 DEG C of pickle solutions, wherein: pickle solution consists of (weight): take 98% vitriol oil 28 parts, the HCl of 36.5% 7 parts, di-alkyl-imidazole hyamine 1.6 parts, quadrol 2.3 parts, 35 parts, water; Passivation Treatment: the titanium alloy rod bar after pickling be impregnated in temperature at 95 DEG C, concentration is the SODIUMNITRATE of 170g/l, in the aqueous solution of the Sodium Fluoride of 22g/l, controls Fe in solution 3+concentration < 20g/l, dipping time is 16min;
(5) surface coating injection: coating spraying raw material is (weight part): titanium oxide powder: 65 parts, silver powder: 0.18 part; Wollastonite powder: 18 parts; Oxidation silver powder: 0.22 part; Titanium boride powder: 2.8 parts; Magnesia powder: 4.7 parts; Adopt atmospheric plasma spraying technique by after above-mentioned powder mixing, be sprayed on titanium alloy rod bar, plasma spray process parameter is the flow of arc plasma gas Ar is 23 standard liter/min, arc plasma gas H 2flow be 17 standard liter/min, the flow of powder carrier gas Ar is 1.6 standard liter/min, and spray distance is 45mm, and powder feeding rate is 8g/min, and spraying current is 460A, and coating thickness is 1.2mm; After spraying, titanium alloy rod bar is added in vacuum oven Ar gas shielded to heat-treat, first, be heated 580 DEG C, be incubated 1.3 hours, then furnace cooling is to 180 DEG C, is incubated 29 hours, then furnace cooling.
Embodiment 2
A preparation method for the medical titanium alloy bar that antibacterial ability is strong, comprises the following steps:
(1) ingot blank preparation: the chemical constitution of described ingot blank is: zirconium 9.5%, niobium 8.25%, iron: 1.58%, chromium: 0.72%, gallium: 0.88%, tin: 0.28%, hafnium 0.06%, tantalum 1.6%, aluminium: 1.3%, vanadium: 0.27%, boron: 0.145%, cerium: 0.166%, molybdenum: 11.3%, silver: 0.0035% surplus is titanium;
By alloying constituent mass percent batching, melting in high vacuum arc heating furnace, fully stirs, be cast into ingot blank, ingot blank added in vacuum oven Ar gas shielded and heat-treat, ingot blank is warming up to 930 DEG C with 230 DEG C/h, be incubated 7 hours, then cool to 570 DEG C with 130 DEG C/h, be incubated 4.5 hours, then cool to 295 DEG C with 84 DEG C/h, be incubated 3.5 hours, continue to cool to 185 DEG C with 58 DEG C/h, be incubated 3.5 hours, then furnace cooling is to room temperature;
(2) forging molding
Surface-coated: applying one deck at surface of ingot blank is that the coating of main component prevents from being oxidized during high temperature process and increasing lubrication with boron nitride;
With 1000 tons of oil presses, step ingot blank is incubated 1.8 hours at 940 DEG C, adoptwith flat-die forging, final forging temperature 690 DEG C, is swaged into the square billet that the length of side is 260mm after repeated multiple times;
Be the square billet cool to room temperature of 260mm by the length of side, the blank heating after thinning surface defect is to 930 DEG C of jumping-ups and pull out distortion 4 times, final forging temperature 780 DEG C, pass deformation 35%;
Then forging stock cool to room temperature, after thinning surface defect, is heated to 720 DEG C of jumping-ups and pulls out forging 4 times, pass deformation 25%;
By the forging stock cool to room temperature that upsetting pull is forged, after thinning surface defect, reheat 700 DEG C of jumping-ups and pull out forging 2 times, pass deformation 45%; And the last time pulling forging time chamfered edge, round as a ball;
By upsetting pull forge forging stock cool to room temperature, after thinning surface defect, reheat 732 DEG C of chamfered edges, round as a ball, pulling be swaged to the bar that diameter is Ф 55mm;
(3) thermal treatment
Bar is carried out solution treatment in chamber type electric resistance furnace, solid solubility temperature is 870 DEG C, solution time is 40min, carries out shrend after solid solution, then carries out interrupted aging process: the bar after shrend is added Ar gas shielded in vacuum oven and is heated to 460 DEG C, insulation 2.5h, then furnace cooling is to 290 DEG C, insulation 3.5h, and then furnace cooling is to 195 DEG C, insulation 5h, then uses water cooling;
(4) surface preparation: washing: be first clean in the hot water of 95 DEG C in temperature by the titanium alloy rod bar after thermal treatment, then cleans with the flowing cool water of room temperature; Sandblasting: dry up titanium alloy rod bar with pressurized air, then blows and sprays quartz sand, and removal machine adds vestige, increases roughness; Alkali cleaning: titanium alloy rod bar be impregnated in temperature in the alkali fusion liquid of 395 DEG C, dipping time is 45min, described alkali fusion liquid is that 72% sodium hydroxide and 28% SODIUMNITRATE mix and form by weight percent; Pickling: cleanup acid treatment is carried out to Surface of Rod Bar, being immersed in temperature is 18min in 48 DEG C of pickle solutions, wherein: pickle solution consists of (weight): take 98% vitriol oil 26 parts, the HCl of 36.5% 6.7 parts, di-alkyl-imidazole hyamine 1.88 parts, quadrol 1.35 parts, 40 parts, water; Passivation Treatment: the titanium alloy rod bar after pickling be impregnated in temperature at 110 DEG C, concentration is the SODIUMNITRATE of 175g/l, in the aqueous solution of the Sodium Fluoride of 26g/l, controls Fe in solution 3+concentration < 20g/l, dipping time is 17min;
(5) surface coating injection: coating spraying raw material is (weight part): titanium oxide powder: 68 parts, silver powder: 0.35 part; Wollastonite powder: 17 parts; Oxidation silver powder: 0.33 part; Titanium boride powder: 3.6 parts; Magnesia powder: 7.2 parts; Adopt atmospheric plasma spraying technique by after above-mentioned powder mixing, be sprayed on titanium alloy rod bar, plasma spray process parameter is the flow of arc plasma gas Ar is 18 standard liter/min, arc plasma gas H 2flow be 17 standard liter/min, the flow of powder carrier gas Ar is 1.25 standard liter/min, and spray distance is 43mm, and powder feeding rate is 7.8g/min, and spraying current is 510A, and coating thickness is 0.9mm; After spraying, titanium alloy rod bar is added in vacuum oven Ar gas shielded to heat-treat, first, be heated 590 DEG C, be incubated 1.6 hours, then furnace cooling is to 175 DEG C, is incubated 38 hours, then furnace cooling.

Claims (4)

1. a preparation method for the medical titanium alloy bar that antibacterial ability is strong, is characterized in that: comprise the following steps:
(1) ingot blank preparation: the chemical constitution of described ingot blank is: zirconium 7-10%, iron: 1.5-2.5%, chromium: 0.5-0.8%, gallium: 0.5-0.9%, tin: 0.25-0.75%, hafnium 0.02-0.07%, tantalum 1-2%, aluminium: 1-2%, vanadium: 0.25-0.45%, boron: 0.1-0.18%, cerium: 0.12-0.18%, niobium 4-15%, molybdenum: 9-13%, silver: 0.001-0.005%, surplus is titanium;
Prepare burden by alloying constituent mass percent, melting in high vacuum arc heating furnace, abundant stirring, be cast into ingot blank, ingot blank is added in vacuum oven Ar gas shielded to heat-treat, ingot blank is warming up to 920-940 DEG C with 200-250 DEG C/h, insulation 6-10 hour, then cool to 550-580 DEG C with 120-150 DEG C/h, insulation 2-6 hour, then cools to 280-320 DEG C with 80-90 DEG C/h, insulation 2-5 hour, continue to cool to 180-190 DEG C with 50-65 DEG C/h, insulation 2-5 hour, then furnace cooling is to room temperature;
(2) forging molding
Surface-coated: applying one deck at surface of ingot blank is that the coating of main component prevents from being oxidized during high temperature process and increasing lubrication with boron nitride;
With 1000 tons of oil presses, step ingot blank is incubated 1-2 hour at 900-1000 DEG C, adoptwith flat-die forging, final forging temperature 660-720 DEG C, is swaged into the square billet that the length of side is 200-300mm after repeated multiple times;
Be the square billet cool to room temperature of 200-300mm by the length of side, the blank heating after thinning surface defect is out of shape 3-6 time to 900-950 DEG C of jumping-up and pulling, final forging temperature 770-810 DEG C, pass deformation 20-45%, and total deformation adds up 70-130%;
Then forging stock cool to room temperature, after thinning surface defect, is heated to 700-740 DEG C of jumping-up and pulls out forging 3-6 time, pass deformation 15-30%, accumulative total deformation 55-110%;
By the forging stock cool to room temperature that upsetting pull is forged, after thinning surface defect, reheat 680-720 DEG C of jumping-up and pull out forging 2-3 time, pass deformation 40-50%; And the last time pulling forging time chamfered edge, round as a ball;
By upsetting pull forge forging stock cool to room temperature, after thinning surface defect, reheat 730-740 DEG C of chamfered edge, round as a ball, pulling be swaged to the bar that diameter is Ф 40-Ф 80mm;
(3) thermal treatment
Bar is carried out solution treatment in chamber type electric resistance furnace, solid solubility temperature is 860-900 DEG C, solution time is 15-45min, carries out shrend after solid solution, then carries out interrupted aging process: the bar after shrend is added Ar gas shielded in vacuum oven and is heated to 450-480 DEG C, insulation 2-3h, then furnace cooling is to 280-310 DEG C, insulation 3-4h, and then furnace cooling is to 180-220 DEG C, insulation 5-6h, then uses water cooling;
(4) surface preparation: washing: be first clean in the hot water of 90-100 DEG C in temperature by the titanium alloy rod bar after thermal treatment, then cleans with the flowing cool water of room temperature; Sandblasting: dry up titanium alloy rod bar with pressurized air, then blows and sprays quartz sand, and removal machine adds vestige, increases roughness; Alkali cleaning: titanium alloy rod bar be impregnated in temperature in the alkali fusion liquid of 350-550 DEG C, dipping time is 30-60min, described alkali fusion liquid is that 70 ~ 80% sodium hydroxide and 20 ~ 30% SODIUMNITRATE mix and form by weight percent; Pickling: cleanup acid treatment is carried out to Surface of Rod Bar, being immersed in temperature is 15-45min in 40-50 DEG C of pickle solution, wherein: pickle solution consists of (weight): take 98% vitriol oil 20-30 part, HCl 6-8 part of 36.5%, di-alkyl-imidazole hyamine 1-2 part, quadrol 1-3 part, water 30-60 part; Passivation Treatment: the titanium alloy rod bar after pickling be impregnated in temperature at 90 ~ 150 DEG C, concentration is the SODIUMNITRATE of 150 ~ 200g/l, in the aqueous solution of the Sodium Fluoride of 15-45g/l, controls Fe in solution 3+concentration < 20g/l, dipping time is 15-20min;
(5) surface coating injection: coating spraying raw material is (weight part): titanium oxide powder: 60-80 part, silver powder: 0.1-1 part; Wollastonite powder: 15-20 part; Oxidation silver powder: 0.1-0.5 part; Titanium boride powder: 2-4 part, magnesia powder: 4-8 part; Adopt atmospheric plasma spraying technique by after above-mentioned powder mixing, be sprayed on titanium alloy rod bar, plasma spray process parameter is the flow of arc plasma gas Ar is 15-30 standard liter/min, arc plasma gas H 2flow be 15-20 standard liter/min, the flow of powder carrier gas Ar is 0.5-2.5 standard liter/min, and spray distance is 40-60mm, and powder feeding rate is 5-10g/min, and spraying current is 450-600A, and coating thickness is 0.5-3mm; After spraying, titanium alloy rod bar is added in vacuum oven Ar gas shielded to heat-treat, first, be heated 550-650 DEG C, insulation 1-2 hour, then furnace cooling is to 150-200 DEG C, insulation 24-48 hour, then furnace cooling.
2. the method for claim 1, is characterized in that: the chemical constitution of described ingot blank is: zirconium 8%, niobium 4.8%, iron: 2%, chromium: 0.75%, gallium: 0.65%, tin: 0.34%, hafnium: 0.04%, tantalum: 1.56%, aluminium: 1.45%, vanadium: 0.33%, boron: 0.16%, cerium: 0.14%, molybdenum: 10.2%, silver: 0.0015%, surplus is titanium.
3. the method as described in claim 1-2, is characterized in that: coating spraying raw material consists of (weight part): titanium oxide powder: 70 parts, silver powder: 0.35 part; Wollastonite powder: 18 parts; Oxidation silver powder: 0.2 part; Titanium boride powder: 3 parts; Magnesia powder: 5.6 parts.
4. the method as described in claim 1-3, is characterized in that: pickle solution consists of (weight): take 98% vitriol oil 25 parts, the HCl of 36.5% 7 parts, di-alkyl-imidazole hyamine 1.5 parts, quadrol 1.4 parts, 45 parts, water; Inactivating treatment liquid is: concentration is the aqueous solution of the SODIUMNITRATE of 160g/l, the Sodium Fluoride of 22g/l.
CN201510476578.9A 2015-08-06 2015-08-06 A kind of preparation method of the medical titanium alloy bar of strong antibacterial Active CN105063420B (en)

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CN108130449A (en) * 2017-12-25 2018-06-08 大连三生科技发展有限公司 A kind of tooth implant titanium alloy and preparation method thereof
CN108950353A (en) * 2018-08-01 2018-12-07 钛格斯医疗设备(重庆)有限公司 The medical titanium alloy processing method that a kind of grain size is small and material property is high
CN109454403A (en) * 2017-09-06 2019-03-12 丹阳蓝思信息技术有限公司 A kind of titanium alloy rod bar and preparation method thereof
CN110846535A (en) * 2019-11-25 2020-02-28 江苏威拉里新材料科技有限公司 Titanium alloy powder
CN112048641A (en) * 2020-09-10 2020-12-08 沈阳中核舰航特材科技有限公司 Manufacturing method of novel medical titanium alloy ingot
CN112404162A (en) * 2019-08-21 2021-02-26 宝鸡富源凯达工贸有限公司 Efficient rolling processing method for large-diameter seamless pipe made of titanium and titanium alloy
CN113693696A (en) * 2021-08-03 2021-11-26 西北有色金属研究院 Medical titanium alloy bone fixing clamp and manufacturing method thereof
CN114247893A (en) * 2022-02-24 2022-03-29 西南医科大学附属医院 Method for manufacturing metal powder and application thereof

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CN109454403A (en) * 2017-09-06 2019-03-12 丹阳蓝思信息技术有限公司 A kind of titanium alloy rod bar and preparation method thereof
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CN107747076A (en) * 2017-11-15 2018-03-02 成都测迪森生物科技有限公司 A kind of method for strengthening titanium alloy and carboxyl polymer cementability
CN107794408A (en) * 2017-11-15 2018-03-13 成都测迪森生物科技有限公司 A kind of support titanium alloy material
CN108130449A (en) * 2017-12-25 2018-06-08 大连三生科技发展有限公司 A kind of tooth implant titanium alloy and preparation method thereof
CN108950353A (en) * 2018-08-01 2018-12-07 钛格斯医疗设备(重庆)有限公司 The medical titanium alloy processing method that a kind of grain size is small and material property is high
CN112404162A (en) * 2019-08-21 2021-02-26 宝鸡富源凯达工贸有限公司 Efficient rolling processing method for large-diameter seamless pipe made of titanium and titanium alloy
CN110846535A (en) * 2019-11-25 2020-02-28 江苏威拉里新材料科技有限公司 Titanium alloy powder
CN112048641A (en) * 2020-09-10 2020-12-08 沈阳中核舰航特材科技有限公司 Manufacturing method of novel medical titanium alloy ingot
CN113693696A (en) * 2021-08-03 2021-11-26 西北有色金属研究院 Medical titanium alloy bone fixing clamp and manufacturing method thereof
CN114247893A (en) * 2022-02-24 2022-03-29 西南医科大学附属医院 Method for manufacturing metal powder and application thereof
CN114247893B (en) * 2022-02-24 2022-05-17 西南医科大学附属医院 Application of metal powder in field of medical materials

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