CN1569706A - Optical glass with superhigh refractive index and its founding process - Google Patents

Abstract

The invention discloses an optical glass with superhigh refractive index characterized in that, the optical glass comprises the constituents of, SiO2 0-18.3%, B2O3 4-26.7%, TiO2 6-36.4%, ZnO 2.1-18.6%, BaO 16.3-40.5%, SrO, MgO, CaO 0-16.5%, Ta2O5 0-10.3%, La2O3, Bi2O3 6-30%, Y2O3, ZrO2, Nb2O5 5.4-26.9%.

Description

A kind of opticglass and melting method thereof with extra-high-speed specific refractory power

Technical field:

The present invention relates to the manufacturing field of opticglass, is a kind of opticglass and manufacture method thereof with extra-high-speed specific refractory power specifically.

Background technology:

The semiconductor laser diode that is widely used in optical communication, because the output laser beam divergence is big, must with utmost point short focal length lens with laser coupled in optical fiber, at many light---also need utmost point short focus lens in the optically-coupled, and the opticglass of high refractive index 1.8 can not be made utmost point short focal length lens.

Summary of the invention:

The objective of the invention is to overcome deficiency of the prior art, a kind of opticglass with extra-high-speed specific refractory power is provided.

Technical scheme of the present invention is achieved in that a kind of opticglass with extra-high-speed specific refractory power, it is characterized in that, described opticglass has following component:

SiO ₂????????????????????????????0～8.3％

B ₂O ₃??????????????????????????4～26.7％

TiO ₂???????????????????????????6～36.4％

ZnO???????????????????????????2.1～18.6％

BaO??????????????????????????16.3～40.5％

SrO、MgO、CaO???????????????????0～16.5％

Ta ₂O ₅????????????????????????0～10.3％

La ₂O ₃、Bi ₂O ₃????????????????6～30％

Y ₂O ₃、ZrO ₂、Nb ₂O ₅?????5.4～26.9％

All percentage ratios among the present invention are weight percentage.

A kind of melting method with opticglass of extra-high-speed specific refractory power is characterized in that: the melting method of described glass may further comprise the steps, and a, raw material is mixed; B, raw material is added in the melting equipment shown in the accompanying drawing 1 in batches; C, the process of founding of clarifying, stir, dewatering; D, reduce to mold temperature; E, be poured in the mould of preheating; F, send into annealing furnace and anneal.

The present invention can effectively collect near lambert's width of cloth beam emitted light beams and obtain high efficiency launched power, can have bigger coupling tolerance and spacing again, and this opticglass has anti-preferably devitrification behavior and good physical chemistry mechanical property simultaneously.The lens that utilize the extra-high-speed refractive index glass to make with the characteristics of its large-numerical aperture, can effectively be collected near lambert's width of cloth beam emitted light beams and obtain high efficiency launched power, can have bigger coupling tolerance and spacing again.

Usually specific refractory power greater than 2 be the extra-high-speed specific refractory power, the optical glass refractive index that the present invention prepares reaches 2～2.1, its specific refractory power to different wavelengths of light sees the following form,

Wavelength ()	Specific refractory power
		????4358	????2.0703
????6563	????2.0065
		????7065	????1.9954

Description of drawings:

The synoptic diagram of Fig. 1 melting equipment that the present invention adopts

Fig. 2 opticglass of the present invention is at the absorptive character figure of infrared region 1.55 μ m

Embodiment:

The invention will be further described below in conjunction with drawings and Examples, but the present invention is not limited only to these examples.

A kind of opticglass with extra-high-speed specific refractory power is characterized in that, described opticglass has following component:

SiO ₂???????????????????????????????0～18.3％

B ₂O ₃??????????????????????????????4～26.7％

TiO ₂???????????????????????????????6～36.4％

ZnO???????????????????????????????2.1～18.6％

BaO??????????????????????????????16.3～40.5％

SrO、MgO、CaO???????????????????????0～16.5％

Ta ₂O ₅????????????????????????????0～10.3％

La ₂O ₃、Bi ₂O ₃????????????????????6～30％

Y ₂O ₃、ZrO ₂、Nb ₂O ₅?????????5.4～26.9％

TiO wherein, La ₂O ₃, Bi ₂O ₃, Nb ₂O ₅, Y ₂O ₃, Ta ₂O ₅Be to make glass have the main ingredient of extra-high-speed specific refractory power, add a small amount of B ₂O ₃, SiO ₂Deng ability with raising formation glass; SrO in the component, MgO, CaO can be wherein a kind to 3 kinds, same La ₂O ₃, Bi ₂O ₃And Y ₂O ₃, ZrO ₂, Nb ₂O ₅It can be wherein a kind to 2 kinds or a kind to 3 kinds.

Raw material generally need mix 3～6 hours, thoroughly mixed, and divided to join in the melting equipment for 10～16 times the process of founding of clarifying in melting equipment, stir, dewatering then.1410～1520 ℃ of melting equipment service temperatures, melting time are 18～32 hours.

Glass smelting equipment (seeing accompanying drawing 1) is generally platinum crucible container 1, it place can with the isolated seal cartridge 2 of atmospheric environment in, venting hole 4 is arranged on the seal cartridge 2, be provided with agitator 3 in the container 1.

Founding after finishing the melting equipment temperature reduces to 1000～1210 ℃ mold temperature and is poured in the mould of preheating.

Simultaneously, this opticglass is few to the absorption of light, and optical loss is low, and accompanying drawing 2 has shown the absorptive character of this opticglass at infrared region 1.55 μ m.

Example 1

Raw material is composed as follows, silicon-dioxide (SiO ₂) 8.71%, boron trioxide (B ₂O ₃) 7.93%, barium oxide (BaO) 37.09%, strontium oxide (SrO) 2.24%, zinc oxide (ZnO) 2.10%, zirconium dioxide (ZrO ₂) 2.20%, lanthanum sesquioxide (La ₂O ₃) 9.13%, bismuthous oxide bismuth trioxide (Bi ₂O ₃) 8.74%, titanium dioxide (TiO ₂) 14.8%, Niobium Pentxoxide (Nb ₂O ₅) 7.06%.

Raw material is taken by weighing required weight, mix 3～6 hours, thoroughly mix.Divide then that to join temperature of smelting furnace for 10～16 times be 1420～1520 ℃ of energy with the isolated platinum crucible container of atmospheric environment in (accompanying drawing 1) clarify, stir, dewater, wholely founded process about 18～32 hours.Cool the temperature in the mould that 1020～1210 ℃ of mold temperatures are poured into preheating, send into annealing furnace behind the Xu Leng and anneal.

Example 2

Raw material is composed as follows, silicon-dioxide (SiO ₂) 7.90%, boron trioxide (B ₂O ₃) 11.40%, barium oxide (BaO) 36.90%, strontium oxide (SrO) 2.10%, calcium oxide (CaO) 1.10%, magnesium oxide (MgO) 1.90%, zirconium dioxide (ZrO ₂) 3.80%, lanthanum sesquioxide (La ₂O ₃) 8.30%, bismuthous oxide bismuth trioxide (Bi ₂O ₃) 2.19%, titanium dioxide (TiO ₂) 14.01%, Niobium Pentxoxide (Nb ₂O ₅) 7.41%, tantalum pentoxide (Ta ₂O ₅) 2.99%.

Raw material is taken by weighing required weight, mix 6 hours, thoroughly mix.Divide then that to join temperature of smelting furnace for 16 times be 1410～1510 ℃ of energy with the isolated platinum crucible container of atmospheric environment in clarify, stir, dewater, wholely founded process about 32 hours.Cool the temperature in the mould that 1190 ℃ of mold temperatures are poured into preheating, send into annealing furnace after the cooling and anneal.

In above two examples, the mould of preheating and the temperature of annealing furnace are prior art, and the die temperature of preheating generally is controlled between the 250-300 degree, and annealing furnace is between the 700-900 degree.

Claims (7)

1, a kind of opticglass with extra-high-speed specific refractory power, it is characterized in that: described opticglass has following component,

SiO ₂?????????????????????0～18.3％

B ₂O ₃????????????????????4～26.7％

TiO ₂?????????????????????6～36.4％

ZnO???????????????????????2.1～18.6％

BaO???????????????????????16.3～40.5％

SrO、MgO、CaO?????????????0～16.5％

Ta ₂O ₅??????????????????0～10.3％

La ₂O ₃、Bi ₂O ₃????????6～30％

Y ₂O ₃、ZrO ₂、Nb ₂O ₅??5.4～26.9％

All percentage ratios are weight percentage.

2, a kind of melting method with opticglass of extra-high-speed specific refractory power, it is characterized in that: the melting method of described glass may further comprise the steps, and a, raw material is mixed; B, add raw material in the melting equipment in batches; C, the process of founding of clarifying, stir, dewatering; D, reduce to mold temperature e, be poured in the mould of preheating; F, send into annealing furnace and anneal.

3, a kind of melting method with opticglass of extra-high-speed specific refractory power according to claim 2, it is characterized in that: the raw material mixing time is 3～6 hours.

4, a kind of melting method with opticglass of extra-high-speed specific refractory power according to claim 2, it is characterized in that: raw material divides 10～16 batches of addings.

5, a kind of melting method according to claim 2 with opticglass of extra-high-speed specific refractory power, it is characterized in that: melting equipment is the platinum crucible container, it place can with the isolated seal cartridge of atmospheric environment in, venting hole is arranged on the seal cartridge, be provided with agitator in the container.

6, a kind of melting method according to claim 2 with opticglass of extra-high-speed specific refractory power, it is characterized in that: glass melting temperature is 1410～1520 ℃, melting time is 18～32 hours.

7, a kind of melting method with opticglass of extra-high-speed specific refractory power according to claim 2, it is characterized in that: mold temperature is 1000～1210 ℃.