CN1772670A - High refractivity high dispersion no-lead optical glass - Google Patents

Abstract

The present invention provides one kind of no-lead optical glass with high refractivity of 1.78-1.84 and high dispersion of 22-28. The optical glass consists of SiO2 23-35 wt%, TiO2 24-35.5 wt%, Nb2O5 8-18 wt%, Na2O 6-14 wt%, K2O 1-8 wt% and BaO 8-20 wt% chemically. The optical glass consists no PbO, CdO, As2O3 and ZrO2, and has high light permeability, high chemical stability and excellent smelting performance.

Description

High refractivity high dispersion no-lead optical glass

Technical field

The present invention relates to a kind of lead-free optic glass, particularly relate to a kind of specific refractory power (Nd) and be the high refractivity high dispersion no-lead optical glass of 22-28 for 1.78-1.84, chromatic dispersion (Vd).

Background technology

The feature of flint glass is to have high refractive index and high chromatic dispersion, but it generally contains a large amount of PbO.Because PbO, CdO and As ₂O ₃Be environmental contaminants, if substitute PbO with one or more components simply, then product generally can not successfully have other optical property of the optical glass that contains PbO.

Have the performance of the high chromatic dispersion of high refractive index though the spy opens the disclosed crown glass of clear JP55-126549, contain the ZrO that costs an arm and a leg and have the high characteristic of fusing point in its component ₂, improved the viscosity and the smelting temperature of glass, increased the tendency towards devitrification of glass simultaneously, reduced the crystal stability of glass.

The P that contains the 15-35% (weight percent content, as follows) of high volatile volatile, highly corrosive in the component of Chinese patent application 03154510.6 disclosed glass ₂O ₅Nb with the 40-60% of costliness ₂O ₅, a large amount of P like this ₂O ₅And Nb ₂O ₅Component exists, and causes P in the glass metal ₂O ₅Volatilization is serious and to the Eroded of smelting equipment (platinum device), increases production difficulty and cost.

Examined patent publication JP63-32733 and the disclosed glass of JP JP58-204838 have the performance of the high chromatic dispersion of high index of refraction, but all contain volatile B in the glass component ₂O ₃, expensive WO ₃As with non-environmental protection ₂O ₃

USP3, the disclosed crown glass in 836,375 (Sept.17,1974) has the performance of the high chromatic dispersion of high index of refraction, but contains the high volatile volatile of 22.5-36.1% and the P of highly corrosive in its glass component ₂O ₅, can there be P in this equally ₂O ₅Volatilization is serious and to the problems such as Eroded of smelting equipment (platinum device), thereby increases the industrial production difficulty.Same problem also appears in the disclosed glass of JP JP55-51732, contains HPO in its glass component ₄And Al (PO ₃) ₃, these two kinds of components can decompose the P that generation has high volatile volatile and highly corrosive ₂O ₅

Summary of the invention

It is that 1.78-1.84, chromatic dispersion are the high refractivity high dispersion no-lead optical glass of 22-28 that technical problem to be solved by this invention provides a kind of refractive index, does not contain dystectic ZrO in this glass component ₂, have good melting behaviour and chemical stability.

The technical scheme that technical solution problem of the present invention is adopted is: high refractivity high dispersion no-lead optical glass, chemical composition comprises by weight percentage: SiO ₂: 23-35%; TiO ₂: 24-35.5%; Nb ₂O ₅: 8-18%; Na ₂O:6-14%; K ₂O:1-8%; BaO:8-20%.

The invention has the beneficial effects as follows: optical glass of the present invention does not contain PbO, CdO, As ₂O ₃And ZrO ₂Refractive index is that 1.78-1.84, chromatic dispersion are 22-28; Glass has good light transmission, chemical stability and melting behaviour.

Embodiment

SiO in the glass ₂Content is higher than at 35% o'clock, glass melting degradation, and specific refractory power and chromatic dispersion reduction; And when being lower than 23%, the acid resistance of glass descends, therefore, and SiO ₂Preferred content is 24.5-30%.

For chemical stability, specific refractory power and the dispersion values that improves glass, should contain the TiO of 24-35.5% in the glass ₂, work as TiO ₂Content is higher than at 35.5% o'clock, and the crystallization trend of glass increases; And being lower than at 24% o'clock, the chemical stability of glass reduces, preferred TiO ₂Content is 26-30%.

Na ₂O and K ₂O is used to improve the glass melting performance, if Na ₂O+K ₂O content is higher than 20%, will disadvantageous effect be arranged to thermal expansivity, glass transformation temperature and the acid resistance of glass; And Na ₂O+K ₂O content is lower than at 10% o'clock, the fusing point height of glass, Na of the present invention ₂O+K ₂The preferred 10-20% of O content, wherein Na ₂The content of O is 6-14%, is preferably 8-13%, K ₂The content of O is 1-8%, is preferably 1-7%.

When the BaO content in the glass was higher than 20%, the crystallization trend of glass increased; Be lower than at 8% o'clock, can not obtain Nd is that 1.75-1.84, Vd are the opticglass of 22-28, and the preferred BaO content of the present invention is 10-19%.For making glass more stable, can add an amount of CaO, SrO and ZnO, its addition is CaO+SrO+ZnO+BaO=14-22%.

For the Nd that makes glass between 1.78 to 1.84, Vd is between 22 to 28 scope, obtain stable not crystallization and have good light permeability can glass, the TiO in must control glass ₂The Nb that contains 8-18% in the addition, this glass ₂O ₅Purpose to pass through Nb exactly ₂O ₅Control TiO ₂Addition and adjust optics and other performances of glass.Nb in glass ₂O ₅When content was higher than 18%, the cost of glass and crystallization trend increased; Work as Nb ₂O ₅When being lower than 8%, for the optical constant that improves glass will cause TiO in the glass ₂Addition increases, and this will cause the light transmission of glass to reduce the preferred Nb of the present invention ₂O ₅Content is 10-15%.

For eliminating the bubble in the glass, the clarifying effect of raising glass, the present invention contains the Sb of 0-0.5% ₂O ₃, preferred content is 0-0.3%.

The present invention does not contain ZrO ₂, reason is ZrO ₂Can improve the viscosity and the smelting temperature of glass, occur calculus easily, increase the tendency towards devitrification of glass and the light transmission of reduction glass.

The production stage of glass of the present invention is: weigh up oxide raw material, then with the raw material thorough mixing, mixed raw materials dropped in 1250-1340 ℃ the smelting furnace and found, through clarification with fully after the homogenizing, casting promptly obtains glass of the present invention under 1150-1220 ℃ temperature.

Table 1 is 9 embodiment of the present invention, wherein acidproof effect stability (D _A) and alkaline-resisting effect stability (D _W) all obtain with the powder method test.

Table 1

Component	Embodiment
										1	2	3	4	5	6	7	8	9
	SiO 2	23.5	28.4	23.5	27.8	28.0	23.5	34.8	32.0										23.0
TiO 2										28.0	28.5	25.5	25.0	29.0	35.5	28.0	30.0	28.0
	Na 20	9.8	9.0	9.5	10.0	8.5	7.0	6.0	9.5										7.5
K 20										8.0	7.0	7.4	6.0	6.5	7.0	4.0	7.5	6.0
	BaO	19.0	13.0	14.0	12.0	15.0	15.5	10.0	14.0										17.5
CaO										-	-	2.0	2.0	-	-	2.0	-	-
	SrO	-	-	-	3.0	1.0	-	1.0	2.0										-
ZnO										-	-	2.0	-	-	-	1.0	1.0	1.0
	Nb 2O 5	11.5	14.0	16.0	14.0	12.0	11.5	13.0	8										17
Sb 2O 3										0.2	0.1	0.1	0.2	-	-	0.2	-	-

Nd	1.808	1.812	1.824	1.807	1.814	1.830	1.793	1.786	1.838
										Vd	26.0	25.2	26.5	24.8	25.6	23.5	27.4	26.2	23.1
Degree of staining	43/36	42/37	43/37	41/36	42/37	43/37	40/36	40/36	44/38
										D(g/cm 3)	3.36	3.29	3.23	3.35	3.27	3.18	3.38	3.41	3.16
D A	1 class	1 class	1 class	1 class	1 class	1 class	1 class	1 class	1 class
										D W	1 class	1 class	1 class	1 class	1 class	1 class	1 class	1 class	1 class

As can be seen from the above table: optical glass of the present invention does not contain PbO, CdO, As ₂O ₃And ZrO ₂Refractive index (Nd) is that 1.78-1.84, chromatic dispersion (Vd) are 22-28; The degree of staining of glass is good, and namely glass has good light transmission; The D of glass _AAnd D _WAll be 1 class, namely glass has good chemical stability; (D) is little for the proportion of glass.From production method of the present invention as can be seen: the fusing point of glass of the present invention is 1250-1340 ℃, and promptly glass has good melting behaviour.

Claims (6)

1, high refractivity high dispersion no-lead optical glass is characterized in that, chemical composition comprises by weight percentage: SiO ₂: 23-35%; TiO ₂: 24-35.5%; Nb ₂O ₅: 8-18%; Na ₂O:6-14%; K ₂O:1-8%; BaO:8-20%.

2, high refractivity high dispersion no-lead optical glass as claimed in claim 1 is characterized in that, described Na ₂O and K ₂The weight percent sum of O is 10-20%.

3, high refractivity high dispersion no-lead optical glass as claimed in claim 1 is characterized in that, its chemical composition also comprises: CaO, SrO and ZnO, the weight percent sum of described CaO, SrO, ZnO and BaO is 14-22%.

4, as claim 1,2 or 3 described high refractivity high dispersion no-lead optical glass, it is characterized in that chemical composition comprises by weight percentage: SiO ₂: 24.5-30%; TiO ₂: 26-30%; Nb ₂O ₅: 10-15%; Na ₂O:8-13%; K ₂O:1-7%; BaO:10-19%.

5, high refractivity high dispersion no-lead optical glass as claimed in claim 4 is characterized in that, chemical composition also comprises by weight percentage: Sb ₂O ₃: 0-0.5%.

6, high refractivity high dispersion no-lead optical glass as claimed in claim 4 is characterized in that, chemical composition also comprises by weight percentage: Sb ₂O ₃: 0-0.3%.