DE3226440A1 - Casting mould and process for casting silicon bars which can be used as material for solar cells - Google Patents

Description

DESCRIPTION

The present invention relates to a mold and to a method for the casting of silicon ingots which Can be used as material for solar cells, in particular of large-dimensioned polycrystalline bars.

As is known, the use of special melting processes enables polycrystalline ingots to be obtained which a cell structure with elongated crystals or Have dendrites, the extension of these crystals essentially from the direction of heat flow in depends on the enamel shapes. It is also known that polycrystalline silicon can be used in manufacture of solar cells is suitable as long as the dimensions of these crystals are sufficiently large. Also seems a strictly oriented structure is not absolutely necessary, since it has been proven that the conversion efficiency only depends on the dimensions of the crystals and the

Concentration of the impurities depends.

Despite these requirements and despite the fact that polycrystalline silicon as such is much more economical is than the monocrystalline silicon normally used for solar cells, it became polycrystalline Silicon has so far only been used little in solar cells, since its production in the form of bars with corresponding large crystals for use as a material for solar cells gives rise to particular problems, which are caused by the physical » depend on the kaiischen properties of silicon as well as on increased costs

In particular, these problems depend on the course of the

expansion coefficient of silicon with temperature and the high recrystallization temperature of silicon away. The expansion of the silicon leads to tension

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at the silicon / mold interface when the melted Silicon is able to wet the mold walls, whereas the increased recrystallization temperature is a Long-term heat treatment at in the vicinity the melting temperatures are required power to ensure the growth of crystals with the necessary large dimensions.

In this situation it has generally been recognized that the structural properties of the container or shape, in which the solidification of the silicon takes place, the cooling process affect to an extent that thereby the morphological properties of the silicon ingot obtained to be determined. The investigations related to the production of polycrystalline silicon With sufficiently large crystals, therefore, have to create suitable shapes and accordingly speaking suitable casting process concentrated.

For example, reference is made to the studies of the Wacker Chemitronic (DE-PS 2508803), which are based on the use of a graphite mold which is preheated to a temperature above 800 ⁰ C and below the melting temperature of silicon. The molten silicon is then poured into this mold, which is then allowed to solidify slowly in such a way that the heat is extracted preferably from the bottom of the mold in order to promote the columnar growth of the crystals.

With these technical solutions it is actually possible Crystals of sufficient size and columnar structure are obtained, but they remain numerous There are disadvantages: for example, it is essential to preheat the mold in order to prevent the des.in To prevent cooling of the conceivable Barrens, and will die maximum preheating temperature determined depending on the wettability properties of the graphite used. Furthermore, the dimensions of the grains of the polycrystalline ingot obtained are relatively small, and therefore the conversion efficiency of solar cells made from such a material is far from it. to be optimal · It must also not be forgotten that only certain types of graphite are able to withstand the unidirectional solidification process, without breaking or without breaking the silicon ingot, and that the graphite crucible cannot be recycled can, which has a detrimental effect on production costs.

It is a general object of the present invention to provide a mold and method for casting large Silicon ingots for solar cells using a mold, which stresses at the interface silicon / mold avoids. and enables the molten silicon to be poured directly into the cold mold.

The shape created by the present invention is * simply constructed and inexpensive, and ensures the recovery of crystals of satisfactory dimensions. The mold according to the invention consists of a different material than graphite and can be used several times

be used.

Accordingly, the present invention relates to a casting mold for the casting of silicon bars, which can be used as material for solar cells, which through an outer Support coat, one located inside the coat Container made of essentially soft and deformable material under the action of force, which directly the Liquid silicon accommodates a lining between the container and the side walls of said shell made of heat-insulating material with low heat capacity, a soil layer of ground squirrel sand or the like. between the container and the bottom of the jacket, and a lid made of heat-insulating material.

Such a shape forms a container or a mold in the manner of a soft crucible that is inserted into a Insulating compound is used, which has a low thermal mass and a large insulating capacity, so that the heat of fusion of the first solidifying silicon layer is able to bring the walls of the container close to the melting temperature of the silicon. This allows the silicon under the for the formation of large grains and to avoid stresses in the The mass of the ingot solidify in the best conditions, u.zw. even in the absence of any, the extension of the ingot hindrance during the cooling process, which process takes 24-42 hours, preferably 30-35 hours. A device is therefore created which ensures the integrity of the silicon ingot without the need to preheat the mold.

Further details of the invention are the following description of a "preferred exemplary embodiment of the Invention with reference to the accompanying drawing, which shows a casting mold constructed according to the invention in vertical section shows, refer to ·. '.

In the drawing, the form according to the invention is generally designated by the reference number 1. It has a on the outside

Support jacket 2, which is preferably made of metal, for example

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wise made of steel, and a container 3 receives with much smaller dimensions.

The container 3 forms the actual shape and has in illustrated pail square cross-section. According to the invention the container 3 consists of essentially soft and deformable material under the action of force, which is suitable to take up liquid silicon directly. In particular, the container can be made using fabric made of ceramic fiber, silica fiber or silica-alumina fiber, or using graphite fibers, preferably ceramic fibers, or even below Use of plates made of ceramic silica-alumina material be created.

Due to the fact that a thin layer of solidified silicon is formed immediately and prevents leakage at joints ^ it is not necessary the shape at the edges without joints - » to build·

Between the container 3 and the side walls 2 is a lining 4- made of heat-insulating material and with

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low heat capacity provided. For example, can the lining 4 made of ceramic fiber flakes or the like. exist.

Between the container 3 and the bottom of the support jacket Finally, a bottom layer 5 of silica sand of appropriate thickness is provided.

The thickness of both the lining 4 and the bottom layer 5 can vary from pail to pail using the the heat diffusion relevant algorithms are calculated, so that the course of the heat flow from the ground of the container 3 is guaranteed in one direction.

Furthermore, a cover 6 is also provided, which consists of a Series of plates made of ceramic fibers that also act as a radiation shield: works.

The method of puncturing the above-described casting mold according to the invention with regard to its structure is obvious. The container 3 is both because of the material from which it is made and because it is in one preferably made of simple block agglomerates existing lining 4 is included, soft and easily deformable. This softness of the container 3 prevents the occurrence of stresses at the interface "silicon / Porm during the cooling and solidification of the silicon. The heat insulating material forming the lining 4 ' with low heat capacity prevents rapid cooling of the silicon in the area of the side walls of the Container, whereas the appropriately sized bottom layer of silica sand or the like. one in one direction

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heat flow determined »

With this system, without pre-heating the mold 1, Ingots with dimensions between 30 30 χ 12 cm and Preserved 16 χ 16 χ 8 cm with an oriented structure and large crystals.

The method of the invention is carried out by the following

(1 M.

Examples explained in more detail.

EXAMPLE 1

Solar grade silicon or electronic "off gradeil" Quality that was doped accordingly to achieve the desired electrical conductivity, is placed in a suitable container using a medium frequency induction furnace (3000-1000 Hz) under inert gas or a moderate argon and / or hydrogen vacuum (> 10 Torr) melted and then with a suitable system for pivoting the crucible into a Porm poured from a container made of ceramic fiber with the following dimensions 16.5 x 16.5 x 16.5 cm, which is located in a container insulated on the sides with alumina fiber flakes. The bottom of the mold existed from a 5 cm thick layer of quartz sand.

After filling the mold up to 2/3. becomes the top

Il II

Opening quickly closed and the system, of course

left to cool at tree temperature. ι

After cooling, the ingot can be removed from the mold and when it is cut into slices, it shows a typical macrocrystalline structure

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with an average grain size of above 10 mm.

EXAMPLE 2

Silicon of solar quality or electronic "off grades" quality, which had been doped accordingly to achieve the desired electrical conductivity, is in a suitable container by means of a medium frequency induction furnace (3000-1000 Hz) under a moderate argon and / or hydrogen st off vacuum or under an inert gas "melted at atmospheric pressure and then poured by means of a suitable system for swiveling the crucible into a mold consisting of a container made of ceramic fibers measuring 16.5 x 16.5x1 6.5 cm , which is in a container on the sides with Graphite felt insulated steel container "was located.

The bottom of the mold consisted of a 5 cm thick layer made of quartz sand.

After filling the mold up to halfway, the top will be opening quickly closed and the system naturally allowed to cool at room temperature.

After cooling, the ingot can be removed from the mold and when it is cut into slices, it shows a macrocrystalline structure similar to that in Example 1. The invention thus achieves the initially set objectives ^s overall.

It should be noted that the molding process performed using the new mold must be performed prior to pouring the

liquid silicon does not provide for a preheating phase. Further It should be emphasized that due to a soft container or a soft casting mold and an insulating system with low heat capacity satisfactory poly- crystalline silicon ingots of columnar structure and in the form of large grains can be obtained.

The invention described above can be modified and varied in many respects without thereby affecting them To transcend frames, so can all the details replaced by technically equivalent elements and in practice the shapes and materials used and dimensions, as long as the specified conditions are met, can be selected at will

Claims (10)

PATSNTA NW A LTE DR. RUDOLF BAUER Dipl. Ing. HELMUT HUBBUCH ilPhs. ULRICH TWELMBlfcR ^ ek ^ eSi / ^^ LecpoWpL-TeJ.COja 783Ο PFORZHEIM - WEST HELIOSIL S.p.A. - Via Franchetti, 1 / A - MILANO ITALY GIESSFOEM AND METHOD OF FTJR THE CASTING OF SILICON BARS, THAT CAN BE USED AS A MATERIAL FOR SOLAR CELLS. PATENT CLAIMS 1 · Casting mold for the casting of silicon ingots, known as Ma- Il material for solar cells are used, characterized by an outer support jacket (2), one inside the Shell "located container (3) made of essentially soft and deformable material under the action of force, which directly absorbs the liquid silicon, a lining (4) between the container (3) and the side walls of said jacket (2) made of warm insulating material with low heat capacity, a bottom layer (5) made of silica sand or the like between the container (3) and the bottom of the casing (2), and a lid (6) warm insulating material. 2. Casting mold according to claim 1, characterized in that the lining (4) and the bottom layer (5) in their Thicknesses depending on the volume and the thermal properties of the silicon provided in the container (3) "are dimensioned to ensure a unidirectional flow of heat from the bottom of the mold. 3. Casting mold according to claim 1, characterized in that the jacket (2) is made of metal ". 4. Casting mold according to claim 1, characterized in that the lining (4) made of ceramic fiber flakes or the like. Material "consists. 5. Casting mold according to claim 1, characterized in that the container (3) made of ceramic fibers selected from silica and silica-alumina fibers, ". 6. Casting mold according to claim 1, characterized in that the container (3) consists of graphite fibers. 7. Casting mold according to claim 1, characterized in that Tim the container (3) made of plates made of ceramic silica-alumina materiai consists. 8. Casting mold according to claim 1, characterized in that the cover (6) consists of a row of plates made of ceramic fibers consists. 9 · Process for melting silicon ingots that can be used as a material for solar cells, thereby characterized in that it comprises the following phases: melting of silica, selected from silica from solar ' quality and silica of electronic quality, Pouring the molten silicon into a cold mold (1) according to claims 1-8, closing the mold and Cooling the silica to room temperature. 10. The method according to claim 9 _f, characterized in that the melting is carried out under a moderate argon and / or hydrogen vacuum. 11. The method according to claim 9, characterized in that Il that the melting under inert gas at atmospheric
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