CN113511809A

CN113511809A - Environment-friendly optical glass and optical element

Info

Publication number: CN113511809A
Application number: CN202110958967.0A
Authority: CN
Inventors: 袁伟
Original assignee: CDGM Glass Co Ltd
Current assignee: CDGM Glass Co Ltd
Priority date: 2018-03-29
Filing date: 2018-03-29
Publication date: 2021-10-19
Also published as: CN108409132A; CN108409132B

Abstract

The invention aims to solve the technical problem of providing environment-friendly optical glass with high refractive index and an optical element, wherein the refractive index of the optical glass is 1.69-1.75, and the Abbe number is 35-43. The environment-friendly optical glass comprises the following components in percentage by weight: na (Na)₂O：0.5‑5％；TiO₂/(Na₂O+K₂O)：3.89‑10；TiO₂/SiO₂：0.23‑0.8；TiO₂/B₂O₃：2.28‑8；SiO₂+B₂O₃：25‑43％；Al₂O₃>SrO. The environment-friendly optical glass does not contain PbO and As₂O₃And fluoride and other components harmful to environment, high chemical stability, low crystallization temperature and low costLow cost and good melting performance. The glass is suitable for equipment such as a projector lens, a digital camera, a digital video camera, a camera mobile phone and the like.

Description

Environment-friendly optical glass and optical element

The application is a divisional application of an invention patent application with the application number of 201810272913.7, the application date of 2018, 03, 29 and the name of 'environment-friendly optical glass and optical element'.

Technical Field

The present invention relates to an environment-friendly optical glass and an optical element, and particularly to an optical glass and an optical element having a refractive index (nd) of 1.69 to 1.75 and an abbe number (vd) of 35 to 43.

Background

In the face of the market pattern of extremely shrinking and extremely intense competition in the optical glass market, the research of PbO-free and As-free glass is strongly required₂O_3、Fluoride and the like, and the glass is required to be low in price and excellent in quality, such as the characteristics of good chemical stability, good degree of coloration, low crystallization temperature and the like.

CN1105691C discloses an optical glass containing Nb₂O₅、Li₂O and fluoride, which not only makes the glass expensive, but also raises the devitrification temperature and destroys the chemical stability of the glass. CN1044223C discloses an optical glass containing Nb₂O₅A large amount of TiO₂、ZrO₂、Li₂O, etc., which also makes the glass expensive. CN1207230C discloses an optical glass containing a large amount of TiO in the glass component₂The glass is colored to a high degree. CN101215084B discloses an optical glass containing a large amount of TiO in the glass component₂And also contains fluoride, TiO₂The coloring degree of the glass is deteriorated, the fluoride is easy to volatilize, the production difficulty is greatly increased, the chemical stability of the glass is damaged, and meanwhile, the environmental pollution is caused.

Disclosure of Invention

The invention aims to solve the technical problem of providing environment-friendly optical glass with high refractive index and an optical element, wherein the refractive index of the optical glass is 1.69-1.75, and the Abbe number is 35-43.

The technical scheme adopted by the invention for solving the technical problem is as follows: the environment-friendly optical glass comprises the following components in percentage by weight: na (Na)₂O：0.5-5％；TiO₂/(Na₂O+K₂O)：3.89-10；TiO₂/SiO₂：0.23-0.8；TiO₂/B₂O₃：2.28-8；SiO₂+B₂O₃：25-43％；Al₂O₃>SrO; the refractive index is 1.69-1.75, and Abbe number is 35-43.

Further, the weight percentage composition of the composition comprisesComprises the following steps: SiO 2₂：20-39％；B₂O₃：0.5-6.9％；TiO₂：3-15％；BaO：26-43％；ZnO：3-20％；Al₂O₃：0.5-8％；CaO：0-10％；La₂O₃：0-10％；ZrO₂：0-10％；SrO：0-5％；K₂O：0-5％；Sb₂O₃：0-0.5％。

The environment-friendly optical glass comprises the following components in percentage by weight: SiO 2₂：20-39％；B₂O₃：0.5-6.9％；TiO₂：3-15％；BaO：26-43％；ZnO：3-20％；Na₂O：0.5-5％；Al₂O₃：0.5-8％；CaO：0-10％；La₂O₃：0-10％；ZrO₂：0-10％；SrO：0-5％；K₂O：0-5％；Sb₂O₃: 0 to 0.5 percent; wherein Al is₂O₃>SrO。

Further, does not contain Li₂O、Nb₂O₅、WO₃、PbO、As₂O₃And fluorides.

The environment-friendly optical glass comprises the following components in percentage by weight: SiO 2₂：20-39％；B₂O₃：0.5-6.9％；TiO₂：3-15％；BaO：26-43％；ZnO：3-20％；Na₂O：0.5-5％；Al₂O₃：0.5-8％；CaO：0-10％；La₂O₃：0-10％；ZrO₂：0-10％；SrO：0-5％；K₂O：0-5％；Sb₂O₃：0-0.5％。

Further, wherein: SiO 2₂: 22 to 38 percent; and/or B₂O₃: 0.8-6%; and/or TiO₂: 4.5-14.5%; and/or BaO: 28-41%; and/or ZnO: 3.5 to 18 percent; and/or Na₂O: 0.5-4.5%; and/or Al₂O₃: 1 to 6 percent; and/or CaO: 0 to 9 percent; and/or La₂O₃: 0 to 8 percent; and/or ZrO₂: 0 to 8 percent; and/or SrO: 0 to 2 percent; and/or K₂O: 0 to 3.5 percent; and/or Sb₂O₃：0-0.3％。

Further, the content of the components meets one or more than one of the following 4 conditions:

1)SiO₂+B₂O₃：25-43％；

2)TiO₂/(Na₂O+K₂O)：3.89-10；

3)TiO₂/SiO₂：0.23-0.8；

4)TiO₂/B₂O₃：2.08-8。

1)SiO₂+B₂O₃：28-40％；

2)TiO₂/(Na₂O+K₂O)：3.89-8；

3)TiO₂/SiO₂：0.23-0.6；

4)TiO₂/B₂O₃：2.18-7。

further, the water stability by the glass powder method is 1 type, and the acid stability by the powder method is 2 or more types.

Furthermore, the refractive index nd of the optical glass is 1.69-1.75, and the Abbe number vd is 35-43.

An optical element formed by the environment-friendly optical glass.

The invention has the beneficial effects that: the environment-friendly optical glass does not contain PbO and As₂O₃And fluoride and other components harmful to the environment, and has high chemical stability, low crystallization temperature, low cost and high smelting performance. The glass is suitable for equipment such as a projector lens, a digital camera, a digital video camera, a camera mobile phone and the like.

Detailed Description

The composition of the optical glass of the present invention will be described in detail below, and the content and the total content of each glass component are expressed in% by weight unless otherwise specified, and the ratio of the content to the total content of the glass component is expressed in terms of a weight ratio.

SiO₂Is a product of the glass of the present invention, SiO₂Can make the optical glass haveBetter chemical stability, reduced crystallization temperature, improved glass color degree and increased glass high-temperature viscosity. If SiO₂The content of (A) is less than 20%, a stable glass cannot be formed, and the chemical stability is poor; but if SiO₂Above 39%, the refractive index of the glass cannot be within the required range. Thus, SiO₂The content of (B) is 20-39%, preferably 22-38%.

B₂O₃The barium flint glass is also an optical glass network generation body oxide, can increase the stability of the glass, has good fluxing effect, and can well solve the problem of cylinder expansion of the barium flint glass. If B is present₂O₃The content of (A) is less than 0.5%, stable glass cannot be formed, the melting performance of the glass is poor, and the glass is easy to be heated; but if B is₂O₃Above 6.9%, the chemical stability of the glass may be deteriorated. Thus, B₂O₃The content of (B) is 0.5-6.9%, preferably 0.8-6%.

The inventor researches and discovers that SiO₂And B₂O₃Total amount of (3) SiO₂+B₂O₃When the content is limited to 25-43%, the glass forming performance and the melting performance of the glass are good, the high-temperature viscosity of the glass is proper, the phenomenon of foaming is avoided, and SiO₂+B₂O₃The content of (B) is preferably 28 to 40%.

TiO₂Is an intermediate oxide, is an effective component for realizing high refractive index and high dispersion of the glass, can improve the chemical stability of the glass and increase the stability of the glass. If TiO is present₂Less than 3%, the refractive index and Abbe number of the glass cannot be in the required ranges; if, however, TiO₂The content of (B) is more than 15%, the coloring degree of the glass is poor, and the design requirement cannot be met. Thus, TiO₂The content of (B) is 3-15%, preferably 4.5-14.5%.

The inventor researches and discovers that when TiO is used₂With SiO₂Content ratio of TiO₂/SiO₂At 0.23-0.8, the glass has better chemical stability and good light transmittance, TiO₂/SiO₂The value of (A) is preferably 0.23 to 0.6. At the same time, when TiO₂And B₂O₃Content ratio of TiO₂/B₂O₃At 2.08-8, the glass has good glass forming performance and good permeability, and TiO₂/B₂O₃The value of (A) is preferably 2.18 to 7.

BaO is an external body of the optical glass network, can effectively improve the refractive index of the optical glass and effectively expand the glass forming range of the glass. If the content of BaO is less than 26%, the refractive index and Abbe number of the glass cannot be within the desired ranges, and the melting property of the glass is poor; however, if the content of BaO is more than 43%, the glass has poor chemical stability and poor devitrification property. Therefore, the content of BaO is 26 to 43%, preferably 28 to 41%.

ZnO can effectively improve the optical constant of the glass, reduce the high-temperature viscosity of the optical glass, improve the chemical stability of the glass and obviously improve the devitrification resistance of the glass. If the content of ZnO is less than 3 percent, the chemical stability of the glass is poor, and the optical constant can not meet the requirement; however, if the content of ZnO is more than 20%, the chemical stability of the glass is rather poor and the glass forming property of the glass is also poor. Accordingly, the content of ZnO is 3 to 20%, preferably 3.5 to 18%.

Na₂O is an essential component of the present invention, is an alkali metal oxide, is a preferable glass flux, can provide an optical glass having a good uniformity, and can improve the degree of coloration of the glass. If Na is contained in the glass₂The content of O is lower than 0.5 percent, the viscosity of the glass is very high, and bubbles and poor internal problems are easy to occur; but if Na₂The content of O is more than 5%, the chemical stability of the glass is poor, and the devitrification property is also poor. Thus, Na₂The content of O is 0.5 to 5%, preferably 0.5 to 4.5%.

K₂O is also an alkali metal oxide and has better fluxing action. If K is₂The content of O is more than 5%, the chemical stability of the glass is deteriorated, and the devitrification resistance is also lowered. Thus, K₂The content of O is 0 to 5%, preferably 0 to 3.5%.

In particular, since the glass of the present invention does not contain Li₂O, has the following advantages: 1) the glass has better chemical stability; 2) The glass has proper high-temperature viscosity and moderate material property, and is very beneficial to the forming of the glass; 3) the devitrification resistance of the glass is better.

The inventor researches and discovers that when TiO is used₂/(Na₂O+K₂O) is 3.89-10, the glass has better transmittance, the network structure of the glass is more stable, the chemical stability is good, and TiO₂/(Na₂O+K₂O) preferably has a value of 3.89 to 8.

Al₂O₃The density of the glass network structure can be improved, and the chemical stability of the glass can be effectively improved. If Al is present₂O₃The content of (A) is less than 0.5%, and the effect of improving the chemical stability cannot be achieved; but if Al is present₂O₃The content of (b) is more than 8%, the high-temperature viscosity of the glass becomes large, the melting property is poor, and there is a risk of devitrification. Thus, Al₂O₃The content of (B) is 0.5-8%, preferably 1-6%.

CaO can improve the glass glossiness and also can play a role in fluxing. If the content of CaO is more than 10%, the chemical stability of the glass may be poor and the risk of glass seizure may be large. Therefore, the CaO content is 0 to 10%, preferably 0 to 9%.

SrO belongs to one of alkaline earth metals, and can play a certain melting role when being added in a small amount. However, SrO has the following disadvantages in high-refractive index barite glasses, as compared with BaO and CaO: 1) in the high-refractive-index barite flint glass, the contribution to improving the refractive index and the dispersion of the glass is small, and even the effect of reducing is achieved; 2) for the barite with high refractive index, in order to improve the refractive index of the glass, more BaO is contained, the gas content in the molten glass is higher, if an oxide with melting property inferior to that of BaO is added, the glass is easy to generate foaming, and the glass with stable components can not be obtained; 3) SrO is more expensive than BaO and CaO, which causes the price of the glass to rise, and is extremely disadvantageous for manufacturing low-cost glass. Therefore, if the content of SrO is more than 5%, the chemical stability of the glass is deteriorated and the glass is very prone to develop. The SrO content is 0-5%, preferably 0-2%.

The inventors have found that when the glass group of the present invention is usedNeutral Al₂O₃When the content is larger than the SrO content, i.e. Al₂O₃>SrO glass not only has good chemical stability, but also can reduce the gas content in the glass, eliminate the risk of glass foaming, obviously reduce the cost of the glass and obtain the glass with high refractive index.

ZrO₂Can improve refractive index and dispersion of optical glass, and proper amount of ZrO₂And the anti-devitrification capability and the chemical stability of the glass can be improved. If ZrO of₂High content of (A), increased difficulty in melting glass, and easy occurrence of ZrO₂Calculus, which can greatly increase the cost of glass. Thus, ZrO₂The content of (B) is 0 to 10%, preferably 0 to 8%.

La₂O₃Is a common rare earth oxide, and can effectively improve the optical constant of the glass. If La is present₂O₃The content of (b) is more than 10%, the glass is easy to crystallize, and the glass cost is increased. Thus, La₂O₃The content of (B) is limited to 0 to 10%, preferably 0 to 8%.

Sb₂O₃Is a commonly used clarifying agent, and a proper amount of Sb₂O₃Is very beneficial to eliminating glass bubbles. However, the higher content of the component affects the transmittance of the glass. Thus, Sb₂O₃The content of (B) is 0 to 0.5%, preferably 0 to 0.3%.

The optical glass provided by the invention is prepared according to a preparation method well known to a person skilled in the art, namely: the raw materials are melted, clarified, stirred, homogenized, cooled to a proper temperature and formed, and the high-refractive-index environment-friendly optical glass with the refractive index (nd) of 1.69-1.75 and the Abbe number (vd) of 35-43 provided by the invention can be obtained.

The test method of each performance parameter of the optical glass provided by the invention comprises the following steps:

the refractive index and Abbe number are tested according to the GB/T7962.11-2010 colorless optical glass test method refractive index and dispersion coefficient.

Water-resistant stability by glass powder method D_WMeasured using the GB/T17129 test standard.

Acid stability by glass powder method D_AMeasured using the GB/T17129 test standard.

Through the tests, the obtained optical glass of the invention has the following properties: refractive index (nd) of 1.69-1.75, Abbe number (vd) of 35-43, and water-resistant stability (D)_W) Is of type 1, acid-resistant stability (D)_A) Is more than 2 types. No PbO, no As₂O₃Free of fluoride and free of Li₂O、Nb₂O₅、WO₃And the like, good melting property, low price and high refractive index.

The present invention also provides an optical element formed of the above-mentioned optical glass of the present invention, and therefore the optical element has all the characteristics of the above-mentioned optical glass of the present invention. The optical element provided by the invention is suitable for being applied to equipment such as a projector lens, a digital camera, a digital video camera and the like.

Examples

In order to further understand the technical solution of the present invention, preferred embodiments of the present invention will be described with reference to the following specific examples. It is to be noted and understood that these examples are only for the purpose of better illustrating the features and advantages of the present invention, and do not limit the claims of the present invention.

The optical glass provided in examples 1 to 30 of the present invention has the components in the weight percentages and the corresponding properties shown in tables 1 to 3. The required optical glass can be obtained by weighing the components of the optical glass in the embodiments of tables 1-3 according to the ratio, fully mixing the components uniformly, adding the components into an optical glass melting furnace, melting, clarifying, stirring and homogenizing the components at a proper process temperature, cooling the components to a proper temperature, pouring the molten glass into a preheated metal mold for molding and annealing. The composition and the corresponding properties of the optical glass of the invention are as follows: the results of refractive index (nd), dispersion (nF-nC), Abbe number (vd) and chemical stability are shown in examples 1 to 30 in tables 1 to 3.

TABLE 1

TABLE 2

TABLE 3

As can be seen from the above examples, the environment-friendly optical glass provided by the invention is free of PbO and As₂O₃Free of fluoride and free of Li₂O、Nb₂O₅、WO₃And the like, and has excellent environmental protection performance and good melting performance, the refractive index (nd) is 1.69-1.75, and the Abbe number (vd) is 35-43. The optical glass is suitable for equipment such as a projector lens, a digital camera, a digital video camera and the like.

Claims

1. The environment-friendly optical glass is characterized by comprising the following components in percentage by weight: na (Na)₂O：0.5-5％；TiO₂/(Na₂O+K₂O)：3.89-10；TiO₂/SiO₂：0.23-0.8；TiO₂/B₂O₃：2.28-8；SiO₂+B₂O₃：25-43％；Al₂O₃>SrO; the refractive index is 1.69-1.75, and Abbe number is 35-43.

2. The environment-friendly optical glass according to claim 1, which comprises the following components in percentage by weight: SiO 2₂：22-39％；B₂O₃：0.5-6.9％；TiO₂：3-15％；BaO：26-43％；ZnO：3-20％；Al₂O₃：0.5-8％；CaO：0-10％；La₂O₃：0-10％；ZrO₂：0-10％；SrO：0-5％；K₂O：0-5％；Sb₂O₃：0-0.5％。

3. The environment-friendly optical glass is characterized by comprising the following components in percentage by weight: SiO 2₂：22-39％；B₂O₃：0.5-6.9％；TiO₂：3-15％；BaO：26-43％；ZnO：3-20％；Na₂O：0.5-5％；Al₂O₃：0.5-8％；CaO：0-10％；La₂O₃：0-10％；ZrO₂：0-10％；SrO：0-5％；K₂O：0-5％；Sb₂O₃: 0 to 0.5 percent; wherein Al is₂O₃>SrO。

4. The eco-friendly optical glass according to any one of claims 1 to 3, not containing Li₂O、Nb₂O₅、WO₃、PbO、As₂O₃And fluorides.

5. The environment-friendly optical glass is characterized by comprising the following components in percentage by weight: SiO 2₂：22-39％；B₂O₃：0.5-6.9％；TiO₂：3-15％；BaO：26-43％；ZnO：3-20％；Na₂O：0.5-5％；Al₂O₃：0.5-8％；CaO：0-10％；La₂O₃：0-10％；ZrO₂：0-10％；SrO：0-5％；K₂O：0-5％；Sb₂O₃：0-0.5％。

6. The eco-friendly optical glass of any one of claims 1 to 5, wherein: SiO 2₂：22-38％(ii) a And/or B₂O₃: 0.8-6%; and/or TiO₂: 4.5-14.5%; and/or BaO: 28-41%; and/or ZnO: 3.5 to 18 percent; and/or Na₂O: 0.5-4.5%; and/or Al₂O₃: 1 to 6 percent; and/or CaO: 0 to 9 percent; and/or La₂O₃: 0 to 8 percent; and/or ZrO₂: 0 to 8 percent; and/or SrO: 0 to 2 percent; and/or K₂O: 0 to 3.5 percent; and/or Sb₂O₃：0-0.3％。

7. An optical glass according to any of claims 3 or 5, wherein the content of the components satisfies one or more of the following 4 conditions:

1)SiO₂+B₂O₃：25-43％；

2)TiO₂/(Na₂O+K₂O)：3.89-10；

3)TiO₂/SiO₂：0.23-0.8；

4)TiO₂/B₂O₃：2.08-8。

8. an optical glass according to any of claims 1 to 5, wherein the content of the components satisfies one or more of the following 4 conditions:

1)SiO₂+B₂O₃：28-40％；

2)TiO₂/(Na₂O+K₂O)：3.89-8；

3)TiO₂/SiO₂：0.23-0.6；

4)TiO₂/B₂O₃：2.18-7。

9. the optical glass of any one of claims 1 to 5, wherein the glass powder process has a water stability D_WClass 1, acid stability by powder method D_AIs more than 2 types.

10. The optical glass according to any of claims 2 to 5,the refractive index n of the optical glass_dIs 1.69-1.75, Abbe number v_dIs 35-43.

11. An optical element formed by using the eco-friendly optical glass as defined in any one of claims 1 to 10.