CN102108008A - Method for manufacturing rare earth element-doped optical fiber preform - Google Patents

Abstract

The invention discloses a method for manufacturing a rare earth element-doped optical fiber perform, which comprises the following steps of: depositing a powder deposited body core layer of the rare earth element-doped optical fiber perform by adopting a vapor axial deposition method; soaking the prepared core layer powder deposited body in co-doped mixed solution containing rare earth elements, and vitrifying the core layer powder deposited body in a high temperature furnace to prepare a core layer of the rare earth element-doped optical fiber perform; and obtaining a cladding of the optical fiber perform, which is formed by a cladding powder deposited body, is vitrified and coats the core layer, outside the core layer of the rare earth element-doped optical fiber perform, or sleeving a glass tube serving as the cladding of the rare earth element-doped optical fiber perform outside the core layer of the rare earth element-doped optical fiber perform. Through the method, the rare earth element-doped optical fiber perform with a large core/cladding ratio is quickly manufactured under the condition that a domestic technology for producing quartz sleeves cannot meet the requirement of manufacturing the rare earth element-doped optical fiber perform at present; moreover, the manufactured rare earth element-doped optical fiber perform meets the requirement for large-size low-cost production.

Description

A kind of method of making rare earth doped preform

Technical field

The present invention relates to a kind of method of making rare earth doped preform, more specifically relate to a kind of VAD of employing method and make the sandwich layer of large-sized rare earth doped preform and adopt the OVD method to make the method for rare earth doped optical fiber prefabricating stick cladding.

Background technology

The manufacture method of rare earth doped preform mainly contains two classes: the one, and method in the pipe mainly comprises modified chemical vapor deposition process (MCVD) (MCVD) and plasma chemical vapor deposition (PCVD); Another kind of is the outer method of pipe, mainly comprises outside vapour deposition process (OVD) and axial vapor deposition method (VAD).

Typical MCVD technology be with ultrapure oxygen as carrier with SiCl ₄Deng raw material and GeCl ₄Send in rotation and the heated silica tube Deng doping agent, redox reaction takes place in raw material in the pipe and doping agent at high temperature (1500 ℃), forms particulate in a certain definite radial position place, and is deposited on the deposited tube inwall by the thermophoresis locomotory movement.Its chemical equation is:

SiCl ₄+O ₂→SiO ₂+2Cl ₂

GeCl ₄+O ₂→GeO ₂+2Cl ₂

4POCl ₃+3O ₂→2P ₂O ₅+6Cl ₂

After the covering deposition finishes, reduce temperature (1100 ℃) and deposit loose sandwich layer again.Take off reaction tubes then, rare earth ion is adsorbed on the loose sandwich layer equably.Take out reaction tubes and feed Cl ₂, O ₂, He dehydrates, and at high temperature sinters transparent prefabricated rods at last into.

PCVD technology is identical with the MCVD technological principle, and just no longer with the method for managing outer thermal source heating, but the plasma body that adopts microwave cavity to produce provides thermal source for reaction.

Adopt the interior sedimentation of pipe to make rare earth doped preform, on technology, because pure SiO ₂The viscosity of deposition material is big, and the temperature height of requirement, so sintering difficulty extremely produce the reaction tubes phenomenon such as thin of softening, contract easily in manufacturing processed, manufacturing can not be continued.In addition, the thermal conductivity of silica glass is lower, the increase that square is directly proportional of heat conduction required time and thickness of pipe, along with the deposition number of plies increases, thickness of pipe increases, heat passes to the time lengthening of reaction tube from the reaction tubes outer wall, if the temperature of torch flame, translatory velocity is constant, just may be because the non-burn-through phenomenon of the not enough generation of thermal conduction, produce large quantities of bubbles, if the translatory velocity that makes torch flame though can increase heat conduction time, improves sintering temperature along with the deposition number of plies is successively decreased, but also make settled layer become thicker simultaneously, loose sandwich layer exceeds after the certain thickness, and problem such as will produce loose sandwich layer cracking in the process of soaking solution and come off causes the failure of rare earth doped preform sandwich layer deposition.Simultaneously, special purpose for rare earth doped optical fiber is considered, require rare earth doped preform to have bigger core bag than (the core bag is than the ratio for sandwich layer diameter and cladding diameter), sedimentation in the pipe is because tube wall self thickness is big and the little cause of sandwich layer deposit thickness, be difficult to do core bag ratio big, therefore, there is very big obstacle in sedimentation on than the method for rare earth doped preform making big core bag in the pipe.

The main chemical reactions principle of outside vapour deposition process (OVD) is exactly gaseous halide (SiCl ₄Deng) and oxyhydrogen flame or methane flame generation hydrolysis reaction, generate oxide particle and (be mainly SiO ₂), particle deposits along with air-flow and thermophoresis effect are brought on the rare earth doped optical fiber prefabricated rod mandrel then, in the middle of the sedimentary process, plug is made circumferential motion simultaneously and is moved back and forth, make particle deposit to the outside surface of plug layer by layer, form rare earth doped optical fiber prefabricating stick cladding powder-deposit.After this pass through the process of dehydration, vitrifying and insulation again, finally form transparent rare earth doped preform.

Its basic technology principle of VAD method is identical with the OVD method, and difference is that it is not radially sedimentary at rare earth doped fiber core layer outside surface, but sedimentary vertically on the top of seed quartz pushrod.In the deposition process, the seed quartz pushrod constantly rotates and moves up, the final rare earth doped optical fiber preform core lamination powder with certain size that forms.Below the method for making rare earth doped preform is compared, as shown in table 1:

Table 1

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Pipe external sediment method is used to produce rare earth doped preform, promptly produce the sandwich layer of rare earth doped preform earlier with the VAD method, make the covering of rare earth doped preform again with the OVD method, have that efficient height, cost are low, the core bag is than plurality of advantages such as big.Compare the interior sedimentation of pipe and directly carry out the manufacturing of prefabricated rods sandwich layer and covering by selected Technology, sedimentation is subjected to the restriction of technical equipment and Technology itself in the pipe, the preform core bag of producing has weakened the effect of rare earth doped optical fiber than little.Produce the required number of devices of the rare earth doped optical fiber of 1,000,000 km more equally, MCVD needs the 6-12 platform; PCVD needs the 4-8 platform; VAD needs the 2-4 platform; OVD needs the 1-2 platform.Obviously, on production capacity, the production capacity of pipe external sediment method has clear superiority.In addition, sedimentation is higher by 40% than pipe external sediment method on cost in the pipe, and it also is fairly obvious as seen managing the advantage of external sediment method on production cost.

Summary of the invention

The technical assignment of the technical problem to be solved in the present invention and proposition be overcome sedimentation is made in the existing pipe rare earth doped optical fiber preform core bag than little, sedimentation rate is low, cost is high, be difficult to satisfy the defective of rare earth doped optical fiber special applications, provide a kind of VAD of utilization method to make the sandwich layer of rare earth doped preform, the OVD method is made the covering of rare earth doped preform, thereby makes the method for the rare earth doped preform of big core bag ratio.

The technical scheme that the present invention adopts for achieving the above object is:

A kind of method of making rare earth doped preform is characterized in that:

Adopt the powder-deposit sandwich layer of VAD method deposition of rare-earth element doping preform, after deposition finishes, prepared sandwich layer powder-deposit is immersed in the mixing solutions that contains rare earth element and codopant, to soak the sandwich layer powder-deposit vitrifying in High Temperature Furnaces Heating Apparatus after finishing again, make the sandwich layer of rare earth doped preform;

Outside the sandwich layer of rare earth doped preform by the covering powder-deposit form be enclosed in outside the sandwich layer by the covering of vitrified preform, or with glass pipe box covering as rare earth doped preform outside rare earth doped preform sandwich layer.

As to further the improving and replenishing of technique scheme, the present invention also comprises following all section additional technical feature, so as in the specific implementation according to demand with it independent or be bonded to each other after be applied in the technique scheme:

Described powder-deposit sandwich layer dewatered before soaking end back, vitrifying.

Described dehydration is that the thin glass granules that will contain OH radical ion and water molecules places dry atmosphere to heat, and makes the sandwich layer powder-deposit slough the water molecules of physical adsorption and the OH radical ion of chemisorption; The temperature that heats in the described dry atmosphere is at least 1000 ℃; At least contain Cl in the described dry atmosphere ₂, Cl ₂Feed rate be at least 0.1L/min.

Described codopant is that the simple substance of a kind of element or multiple element is or/and compound.

In the described mixing solutions that contains rare earth element and codopant, the concentration of element that rare earth element and codopant contained is 0.001-0.1M and 0-1.25M, and the time that described sandwich layer powder-deposit soaks was at least 1 hour.

The vitrifying of described sandwich layer powder-deposit in High Temperature Furnaces Heating Apparatus is by described sandwich layer powder-deposit sintering is realized, described sintering is the stomata states from sedimentary many dummy status to sealing with low-density sandwich layer powder-deposit, shrink disappearance fully to sealed porosity again, form fine and close glassy rare earth doped prefabricated rods sandwich layer.

Described agglomerating temperature is at least 1400 ℃.

Feed Cl when implementing described sintering ₂, Cl ₂Feed rate be at least 0.1L/min.

The sandwich layer of the rare earth doped preform after the vitrifying is implemented insulation so that the sandwich layer of the rare earth doped preform of densification is removed internal stress under hot conditions; The time of described insulation was at least 6 hours.

With the OVD method with the covering powder-deposit form be enclosed in sandwich layer outer by the covering of vitrified preform; Is the main casing pipe sleeve covering as rare earth doped preform outside rare earth doped preform sandwich layer with tiretube process in order to quartzy composition.

The rare earth doped preform of manufacturing of the present invention can easily obtain big core bag ratio, thereby satisfies the special applications requirement of rare earth doped optical fiber better, as makes powerful laser amplifier etc.And, utilize method of the present invention to make rare earth doped preform and also have advantages such as efficient height, speed is fast, cost is low.

Description of drawings

Figure 1 shows that the VAD method makes the deposition principle schematic of rare earth doped preform sandwich layer, it has disclosed raw material by blowtorch 1 ejection and generation hydrolysis reaction, the oxide particle of generation helps to illustrate the forming process of rare earth doped optical fiber preform core lamination powder 3 to the deposition process of target rod 2 accumulations that constantly upwards promote.

Figure 2 shows that existing VAD and OVD method make dehydration, sintering and the heat-insulation system synoptic diagram of rare earth doped preform, it has disclosed Supply Method and the state that powder-deposit 4 glass is changed into gas in the prefabricated rods process, helps the principle that illustrates that rare earth doped preform forms.Need to prove that in the actual production, dehydration and sintering process are carried out continuously in same equipment, and insulating process carries out in another equipment.

Figure 3 shows that the OVD method makes the depositing system synoptic diagram of rare earth doped optical fiber prefabricating stick cladding, it has disclosed raw material by blowtorch 11 ejections and generation hydrolysis reaction, the deposition process that the oxide particle that generates is piled up to the plug 9 of rotation helps the principle that illustrates that rare earth doped optical fiber prefabricating stick cladding powder-deposit forms.

The number in the figure explanation: 1-is used to deposit the blowtorch of sandwich layer, 2-target rod, and 3-sandwich layer powder-deposit, 4-vitrifying stove, 5-anchor clamps, 6-are used to deposit the blowtorch of covering, 7-covering powder-deposit, 8-suspended hood, 9-waste discharge device, 10-sandwich layer.

Embodiment

The first step that method of the present invention is made rare earth doped preform is to adopt the sandwich layer of the rare earth doped preform of VAD method pipe external sediment.The sandwich layer deposition apparatus as shown in Figure 1.Gaseous feed in the deposition process mainly contains: Si, H ₂, Ge, Ar, O ₂, the P(compound form), H wherein ₂Flow is not change easily generally, H ₂Flow will guarantee the density of head part sandwich layer powder-deposit, and density is too low, will become flexible, and causes deposition back sandwich layer powder-deposit 3 to come off easily.Blowtorch 1 is generally also motionless, mainly adjusts its flow.

After deposition finishes, the sandwich layer powder-deposit is immersed in the mixing solutions that contains rare earth element and codopant, wherein, codopant can be a kind of element or multiple element, and can be that the simple substance of the state of the multiple material that contains described codopant such as a kind of element or multiple element is or/and compound.The method for preparing mixing solutions has two kinds, the method that comparatively conveniently saves trouble is that the rare-earth compound with more amount mixes with pure water with codopant concentration and proportionlity as required, slowly stir and make its whole dissolvings become mixing solutions, each mixing solutions that soaks the taking-up aequum is placed in one the sandwich layer powder-deposit and (notices that the sandwich layer powder-deposit can only be suspended in the mixing solutions, can not be rebuffed or damage the shape on sandwich layer powder-deposit surface, cause the sandwich layer powder-deposit to reduce the yield rate of manufacturing owing to surface damage), use (each solution that soaks is reusable edible not) when soaking after remaining mixing solutions can be waited until; Another kind method is that each the immersion all uses accurate balance to weigh the rare-earth compound and the codopant of required weight, measures volume required pure water again, again they is stirred into mixing solutions, the only enough amounts of using of once soaking of mixing solutions.Owing to adopt size that pipe external sediment VAD method makes rare earth doped preform than big many of the interior sedimentation of pipe, cause the amount of required mixing solutions also corresponding big many, consider rare earth doped preform to the requirement of impurity than higher, mixing solutions can increase the content of its impurity storage period for a long time, so present method is used the method that quantitatively prepares mixing solutions when soaking one by one.In addition, the instrument of preparation mixing solutions comprises that beaker, graduated cylinder, stirring rod, watch-glass, soaking compartment etc. all should adopt pure quartz ware, prevent that the contained foreign ion of instrument from entering in the sandwich layer of rare earth doped preform.

After immersion is finished rare earth doped optical fiber preform core lamination powder 3 is finished dehydrating step, Cl in placing vitrifying stove 4 shown in Figure 2 ₂As the dewatering agent of this process, O ₂Be used for reducing sandwich layer GeO ₂The refractive index profile of rare earth doped preform sandwich layer extends influence.The dehydration back is sintered into sandwich layer 10 equally in vitrifying stove 4 shown in Figure 2, sintering temperature is generally more than 1400 ℃ or 1400 ℃, though dehydration has been removed most OH radical ions, also have moisture among the He that feeds, so sintering step need continue to feed Cl ₂To reduce the water peak in the rare earth doped preform sandwich layer.At last, the rare earth doped optical fiber preform core lamination powder 3 that sintering is finished was placed in the holding furnace more than 6 hours, so that eliminate the plug internal stress, strengthened the mechanical property of rare earth doped optical fiber.Dehydration and sintering process and insulating process are as shown in Figure 2.

Second step that method of the present invention is made rare earth doped preform is the covering that adopts the rare earth doped preform of OVD method pipe external sediment.Concrete operation method be rare earth doped preform sandwich layer 10 crosswise fixed that will make earlier on the anchor clamps 5 of OVD depositing device, as shown in Figure 3, just can move the deposition program after blowtorch 6 igniting.In the deposition process, the SiCl of certain flow ₄, H ₂, O ₂, Ar feeds in the blowtorch 6 that moves repeatedly raw material SiCl ₄At oxygen O ₂Carrying under, pass through H ₂(or CH ₄)/O ₂Flame sprays to the prefabricated rods sandwich layer 10 of rotation together, and under the heat energy effect, raw material generation hydrolysis reaction generates SiO ₂, SiO ₂The powder dust particle that the particle hydrolysis produces passes through on the flame prefabricated rods sandwich layer 10 that is adsorbed on rotation from level to level, forms rare earth doped optical fiber prefabricating stick cladding powder-deposit 7.Suspended hood 8 constantly carries out air draught and discharges the sediment chamber by the unnecessary dust that waste discharge device 9 will absorb in the deposition process.

The rare earth doped preform powder-deposit of deposition after finishing places intact dehydrations and sintering in the vitrifying stove shown in Figure 24, feeds siccative (Cl for example down from 1100 ℃ to 1500 ℃ through temperature range ₂) dewater and remove water and metallic impurity, to reduce the loss of drawing optical fiber, under 1500 ℃ of conditions, form glass preform then through sintering.Should feed He in the sintering process, mainly play conductive force, make vitrifying more complete.Generally more than 6 hours, temperature is between 800-1400 ℃ for insulating process subsequently.The synoptic diagram of dehydration and sintering process and insulating process as shown in Figure 2.

Embodiment 1

The core bag ratio of the rare earth doped preform of target is 0.5, and the sandwich layer powder-deposit 3 of manufacturing is of a size of φ 30*800mm.About 10 hours of sandwich layer powder-deposit deposition process was wherein started stably depositing 8.5 hours about 1.5 hours.During blowtorch 1 igniting back 4min, set and upwards promote 2mm, time spent 1min; During 5min, the control blowtorch provides reaction raw materials; During 20min, set operation 5min downwards, speed is 2mm/min; During 25min, set pulling speed 140mm/h.The sandwich layer powder-deposit volume that makes is about 0.565L, soaking compartment is a rectangular parallelepiped, size is greater than sandwich layer powder-deposit size, the soaking compartment volume is 1L, need the about 0.45L of configuration to contain the solution of rare earth element and codopant, wherein the concentration of rare earth element and codopant all is 1.5mol/L, then uses the rare earth element and the codopant of the required quality of accurate balance weighing, and stirring with the 0.45L pure water is configured to mixing solutions and the sandwich layer powder-deposit together placed soaking compartment 1.5 hours again.Sandwich layer powder-deposit after soaking is put into the vitrifying stove dewater, set Cl ₂Flow 200ml/min, He flow 50l/min, O ₂Flow 10l/min, plug 4 lowering speed 5mm/min, and set 1300 ℃ of dehydration temperaturres.The setting gas flow is constant, and speed changes 5mm/min into, carries out the vitrifying sintering at 1500 ℃.The taking-up to be cooled of plug behind the sintering placed in the holding furnace, with 1200 ℃ of insulations 8 hours.

The plug that makes is fixed in the OVD depositing device after horizontal expansion becomes desired size through the flame lathe, adopts OVD deposition, dehydration, sintering and heat preserving method described in " specific implementation method " to make the covering of rare earth doped preform.Its result is: make the rare earth doped optical fiber prefabricated rod mandrel of target and be of a size of φ 30*800mm, the core bag ratio of rare earth doped preform is 0.5, and doping content is 1.5mol/L, and the lasing efficiency that wire drawing makes optical fiber is more than 77.67%.

It needs to be noted, the mode of the foregoing description only limits to describe embodiment, but the present invention is not confined to aforesaid way, and those skilled in the art can modify in not departing from the scope of the present invention in view of the above easily, and therefore scope of the present invention should comprise the disclosed principle and the maximum range of new feature.

Claims (10)

1. method of making rare earth doped preform is characterized in that:

Adopt the powder-deposit sandwich layer of VAD method deposition of rare-earth element doping preform, after deposition finishes, prepared sandwich layer powder-deposit is immersed in the mixing solutions that contains rare earth element and codopant, to soak the sandwich layer powder-deposit vitrifying in High Temperature Furnaces Heating Apparatus after finishing again, make the sandwich layer of rare earth doped preform;

Outside the sandwich layer of rare earth doped preform by the covering powder-deposit form be enclosed in outside the sandwich layer by the covering of vitrified preform, or with glass pipe box covering as rare earth doped preform outside rare earth doped preform sandwich layer.

2. a kind of method of making rare earth doped preform according to claim 1 is characterized in that: described powder-deposit sandwich layer dewatered before soaking end back, vitrifying.

3. a kind of method of making rare earth doped preform according to claim 2, it is characterized in that: described dehydration is that the thin glass granules that will contain OH radical ion and water molecules places dry atmosphere to heat, and makes the sandwich layer powder-deposit slough the water molecules of physical adsorption and the OH radical ion of chemisorption; The temperature that heats in the described dry atmosphere is at least 1000 ℃; At least contain Cl in the described dry atmosphere ₂, Cl ₂Feed rate be at least 0.1L/min.

4. a kind of method of making rare earth doped preform according to claim 1 is characterized in that: described codopant is that the simple substance of a kind of element or multiple element is or/and compound.

5. a kind of method of making rare earth doped preform according to claim 1, it is characterized in that: in the described mixing solutions that contains rare earth element and codopant, the concentration of element that rare earth element and codopant contained is 0.001-0.1M and 0-1.25M, and the time that described sandwich layer powder-deposit soaks was at least 1 hour.

6. a kind of method of making rare earth doped preform according to claim 1, it is characterized in that: the vitrifying of described sandwich layer powder-deposit in High Temperature Furnaces Heating Apparatus is by described sandwich layer powder-deposit sintering is realized, described sintering is the stomata states from sedimentary many dummy status to sealing with low-density sandwich layer powder-deposit, shrink disappearance fully to sealed porosity again, form fine and close glassy rare earth doped prefabricated rods sandwich layer.

7. a kind of method of making rare earth doped preform according to claim 6 is characterized in that: described agglomerating temperature is at least 1400 ℃.

8. a kind of method of making rare earth doped preform according to claim 6 is characterized in that: feed Cl when implementing described sintering ₂, Cl ₂Feed rate be at least 0.1L/min.

9. a kind of method of making rare earth doped preform according to claim 1 is characterized in that: the sandwich layer of the rare earth doped preform after the vitrifying is implemented insulation so that the sandwich layer of the rare earth doped preform of densification is removed internal stress under hot conditions; The time of described insulation was at least 6 hours.

10. a kind of method of making rare earth doped preform according to claim 1 is characterized in that: with the OVD method with the covering powder-deposit form be enclosed in sandwich layer outer by the covering of vitrified preform; Is the main casing pipe sleeve covering as rare earth doped preform outside rare earth doped preform sandwich layer with tiretube process in order to quartzy composition.

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