DE4306004A1 - Silicate glass suitable for working with short wave solid body lasers - contains iron oxide and opt. vanadium and titanium oxide(s) - Google Patents

Abstract

Technically homogeneous silicate glass which is suitable for working with solid body lasers contains in addition to the basic component 0.2-1.5 wt.% FeO or 0.2-1.9 wt.% Fe2O3, VO2, Ti2O3 or mixt. of these with a max. total of 1.9. ADVANTAGE - Glass has low thermal expansion and high chemical resistance and the transmission of the short wave radiation of the laser beam is greatly reduced.

Description

The invention relates to a homogeneous technical silicate glass, which is suitable for processing with Festkör perlasern. The glasses of the present invention include SiO ₂ and B ₂ O ₃ and / or Al ₂ O ₃ , alkali and alkaline earth oxides and metal oxides, which allow a necessary for the processing of the glass interaction with the laser radiation under different solid-state laser, in which the transmission in Wavelength range of the solid state laser emitted radiation is greatly reduced ver.

In the prior art, it is known to process glasses in the infrared spectral range with the aid of CO ₂ lasers. This radiation is absorbed by most lenses due to the existing vibrational band within the glass structure, which makes glass processing possible.

According to US-PS 87 93 601 are glass compositions known to have an interaction of long-wave Contain rays with borosilicate glasses.  

With the glasses known in the prior art, it is possible to realize the neces sary in many applications microstructuring of printed conductors, position marks and the like by the use of CO ₂ lasers. A disadvantage of the given glasses is that the use of the laser beams of shorter wavelengths, as they occur in festkörper lasers, is not possible, with the result that in the glass much smaller structures can not be introduced and a high thermal load of Glass occurs.

The invention is based on the object, techni specify a silicate glasses that a processing enable with short-wave solid-state lasers and which has a low thermal elongation and high che have mixed resistance.

According to the invention, the solution of the problem da by that the basic component of the glass 0.2 to 1.5 mass% FeO, or 0.2 to 1.9 mass% Fe ₂ O ₃ , VO ₂ , Ti ₂ O ₃ or a mixture thereof, which in total does not exceed 1.9% by weight is added.

An expedient embodiment of the invention ßen procedure provides that as a basic component Borosilicate glass with the ingredients  

SiO₂ 65-87% by mass B₂O₂ 9-25% by mass Al₂O₃ 1-5% by mass Li₂O 0-5% by mass Na₂O 0-4% by mass K₂O 0-2% by mass FeO 0.2-1.5 mass% reducing agent 0-1.5 mass%

is used.

The borosilicate glasses according to the invention have a thermal expansion of 2.7 to 3.5 _* 10 ^-6 K ^-1 .

Furthermore, it is possible that as a basic component Alkaline earth aluminosilicate glass with the composition

SiO₂ 51-74% by mass B₂O₂ 0-7% by mass Al₂O₃ 12-22% by mass MgO 0-12 mass% CaO 5-12 mass% BaO 0-20% by mass SrO 0-3 mass% MnO 0-6% by mass Li₂O 0-2% by mass Na₂O 0-2% by mass K₂O 0-2% by mass FeO 0.2-1.5 mass% reducing agent 0-1.5 mass%

is used.  

The alkaline earth metal aluminosilicate glasses according to the invention have a thermal expansion of 3.2 to 5.0 _* 10 ^-6 K ^-1 .

Another embodiment of the invention Method provides that as a basic component Li thiumborosilicate or Litiumalumosilikatgläser the composition

SiO₂ 62-76% by mass B₂O₃ 0-12 mass% Al₂O₃ 5-22% by mass Li₂O 5-22% by mass Na₂O 0-5% by mass K₂O 0-5% by mass alkaline earth oxides 0-1 mass% FeO 0.2-1.9 mass% reducing agent 0-1.5 mass%

be used.

The lithium silicate glasses according to the invention with an Al ₂ O ₃ content of more than 5% by mass ensure a specifically limited transmission within a wavelength range which includes the wavelength of the laser radiation of solid-state lasers.

The invention will be described below with reference to an off management example will be explained in more detail.

The main component of Borosili invention Katglase is formed by a pyrex glass. In order to will have a low thermal elongation and high che mixed consistency achieved. The properties  of the glass according to the invention are based on the off Utilization of the effect of cations of transition metals corresponding valence levels. Thereby is in the glass a strong decrease in the transmission reached in the wavelength range of the laser radiation of solid state lasers. It will a borosilicate glass with the following constituents used:

SiO₂ 65-87% by mass B₂O₃ 9-25% by mass Al₂O₃ 1-5% by mass Li₂O 0-5% by mass Na₂O 0-4% by mass K₂O 0-2% by mass alkali oxides 2-5% by mass FeO 0-1.5 mass% titanium oxide 0-1.9 mass% vanadium oxide 0-1.9 mass% Content of FeO or Ti₂O₃ or VO₂ at least 0.2% by mass reducing agent 0-1.5 mass%

The main component of the glass network is formed by SiO ₂ . This ensures the crystallization strength, low thermal elongation and high chemical resistance. The maximum value of the SiO ₂ content is determined by melting conditions of the SiO ₂ raw material in the amount at melting temperatures of 1600 ° C. The lower limit is caused by the decreasing chemical content of the falling fraction. Another component of the glass network is B ₂ O ₃ . This ingredient also increases the crystallization stability, with the thermal expansion and chemical resistance only being adversely affected to a lesser extent. The use of B ₂ O ₃ within the specified limits ensures a good melting behavior. The third Hauptkom component of the described type of glass is formed by Alka lien. Alkaline ingredients in Rohstoffge amount basically cause an improvement in the melting behavior. It is important to pay attention to the different molecular weights of the alkali cations and the associated increasing thermal expansion of the glasses at the same molar ratios. Li ₂ O as the sole constituent can be used up to 5% by mass and especially in the case of high SiO ₂ contents affects the thermal expansion only slightly, while Na ₂ O ₃ and especially K ₂ O significantly influence these properties. The B ₂ O ₃ -rich phase which usually occurs when using these constituents in the stated limiting compositions is prevented by a corresponding Al ₂ O ₃ content, without the thermal expansion being increased substantially. In order to ensure adequate interaction of the glass with the respective laser radiation, the specified minimum values for the oxides of the listed transition metals must be maintained. On the other hand, exceeding the specified maximum values would unreasonably increase the thermal expansion in the case of glass-silicon compounds for electronic applications. In order to influence the redox equilibrium of the polyvalent cations of the transition metals, reducing agents are additionally used.

The transmission in the desired Wellenlängenbe richly affecting oxides enable the Bear processing with solid-state lasers in the following way:

• 1. FeO (band about 1100 nm) for Nd-YAG laser (1060 nm).
• 2. TiO ₂ enhances the effectiveness of the iron oxide and is ineffective without iron oxide.
• 3. VO ₂ can take over the function of FeO.
• 4. Titanium oxide with a high proportion of Ti ³⁺ cations increases the absorption in the entire wavelength range of 400-800 nm with a maximum of 580 nm and thus allows the interaction with ruby and Ti - sapphire laser.

Examples of modified borosilicate glasses

Example 2 Alkaline earth aluminosilicate glasses

The main components of Erdalkalialumosilikatglä water are SiO ₂ , Al ₂ O ₃ and the alkaline earth oxides. They are characterized by a very low alkali content, which is partly due to the detection limit naßche mixer examination method from. Derarti ge glasses have a high transformation tempera ture of 650 to 800 ° C, are chemically very be constantly and have a low thermal expansion coefficient. They are therefore often used for lamp lenses. The following composition is used for the glass according to the invention:

SiO₂ 47-74% by mass B₂O₂ 0-7% by mass Al₂O₃ 12-22% by mass MgO 0-12 mass% CaO 5-12 mass% BaO 0-20% by mass SrO 0-3 mass% MnO 0-6% by mass Na₂O 0-2% by mass K₂O 0-2% by mass FeO 0-1.5 mass% titanium oxide 0-1.9 mass% vanadium oxide 0-1.9 mass% FeO, Ti₂O₃ or VO₂ at least 0.2% by mass reducing agent 0-1.5 mass%

The main component of the glass network is formed by SiO ₂ . Characteristic of the alkaline earth alumosikatgläser is the relatively high proportion of Al ₂ O ₃ . This oxide is usually used in equal molar percentages as the sum of the alkaline earth and Alka lioxide. As a result, an optimal glass structure with very few Trennstellensauer substances is formed and it will be the desired physical and chemical properties he goes. The low alkali content of the glasses ensures the relatively high values for the transformation temperature and thus high crystallization stability. The inventively introduced into the glass transition metals and their Ver compounds cause the absorption of the selected laser radiation. The specified composition be acts that the other glass properties are only slightly affected.

Example of alkaline-earth aluminosilicate glasses

Example 3 Lithium borosilicate and lithium aluminosilicate glasses

The lithium borosilicate and Lithium aluminosilicate glasses have the following co composition on:

SiO₂ 62-76% by mass B₂O₃ 0-10 mass% Al₂O₃ 5-22% by mass Li₂O 5-22% by mass Na₂O 0-5% by mass K₂O 0-5% by mass FeO 0-1.5 mass% Ti₂O₃ 0-1.9 mass% VO₂ 0-1.9 mass% FeO, Ti₂O₃ or VO₂ at least 0.2% by mass reducing agent 0-1.5 mass%

The main component of the glass network is again formed here by SiO ₂ , which is supplemented by Al ₂ O ₃ and / or B ₂ O ₃ . However, the high proportion of alkali metal oxides causes a high number of interface oxygens, which are not desirable for every application. By fiction, contemporary additions of transition metals relationship, of rare earths and the specified Ver compounds, the absorption of the corresponding radiation of the solid-state laser is effected, and thus enables the desired structuring.

Claims (4)

1. Homogeneous technical silicate glass, which is suitable for processing with solid-state lasers, characterized in that the basic component of the glass 0.2 to 1.5 mass% FeO, or 0.2 to 1.9 mass% Fe ₂ O ₃ , VO ₂ , Ti ₂ O ₃ or a mixture thereof, which does not exceed 1.9% by weight in total, is added. 2. silicate glass according to claim 1, characterized in that borosilicate glass with the constituents as a basic component SiO₂ 65-87% by mass B₂O₂ 9-25% by mass Al₂O₃ 1-5% by mass Li₂O 0-5 mass% Na₂O 0-4% by mass K₂O 0-2% by mass FeO 0.2-1.5 mass% reducing agent 0-1.5 mass% is used. 3. silicate glass according to claim 1, characterized in that the basic component Erdalkalialumo silicate glass with the composition SiO₂ 51-74% by mass Al₂O₃ 12-22% by mass B₂O₂ 0-7% by mass MgO 0-12 mass% CaO 5-12 mass% BaO 0-20% by mass SrO 0-3 mass% MnO 0-6% by mass Li₂O 0-2% by mass Na₂O 0-2% by mass K₂O 0-2% by mass FeO 0.2-1.5 mass% reducing agent 0-1.5 is used. 4. silicate glass according to claim 1, characterized in that the basic ingredient Lithiumborosili kat- or Lithiumalumosilikatgläser the composition together SiO₂ 62-76% by mass Al₂O₃ 5-22% by mass B₂O₃ 0-12 mass% Li₂O 5-22% by mass Na₂O 0-5% by mass K₂O 0-5% by mass alkaline earth oxides 0-1 mass% FeO 0.2-1.5 mass% reducing agent 0-1.5 mass% are used.