DE2717274A1 - METHOD AND DEVICE FOR FORMING CERAMIC MASSES - Google Patents

Description

Method and device for reshaping ceramic Iviassen

The invention relates to a method for forming, in particular ceramic masses, preferably to hollow bricks and a device for carrying out the method by means of Screw presses.

The invention is aimed at leading the forming process so that the elastic stress on the ceramic Mass is rectified with the aim of minimizing the differences in the elastic changes in length in the molding to keep the cracking on the formations leg To reduce or eliminate shrinkage in the dry and burning process.

In the previously known methods, ceramic! .Lacing. Means To reshape screw presses, the mass is conveyed in the screw cylinder of the press and by means of the two or multi-turn end wing of the screw conveyor in the press head, which forms the transition from the screw cylinder to the round piece, pressed. The resulting pressure is intended to compress the ceramic mass in the press head and when it flows out Use the mouthpiece to shape the ceramic mass into the desired dimensions (Plaul: Technologie der Grobkeramik, Band 1, VEB Verlag für Bauwesen Berlin, 1973 p. 173 column 2 line 20 to p. 181 column 2).

On the mass to be reshaped in the press head act axial forces that cause the delivery pressure, and non-axial forces that the To cause compression of the ceramic mass. The non-axial forces as resultants from tangential and normal forces, grip the circumference of the Liasse to be reshaped and are inside, the axial forces as a result of

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Opposite slopes of the press head and mouthpiece walls. The effect of the non-axial forces can be positive through the extension of the distance between the inlet and outlet opening of the press head and the mouthpiece and / or with The difference to be taken between the circumference and / or the cross-sections of the inlet and outlet openings of the press head and the mouthpiece can be increased. The inlet cross-section of the press head is the same as the cross-section of the screw cylinder, while the exit cross-section of the press head is smaller than the entry cross-section and for the formation of bricks is rectangular (Pels Leusden: Die Formgebung auf Extrusion presses, Ziegeleitechnisches Jahrbuch 1975, Bauverlag GmbH Wiesbaden and Berlin, p. 274, paragraph 2 to p. 275). The outlet cross-section is determined by a base plate on which the mouthpiece and the holder for the cavity forming cores are mounted, locked and so large that by exchanging the base plate, moldings of different dimensions can be produced with the same press head.

The immediately visible deficiency in the emerging strand, such as surface roughness and not fully formed or torn Edges can be made by increasing the vacuum in the screw press and / or by reducing the frictional forces between Sound and mouthpiece wall can be removed by means of a film of water. However, there are also defects resulting from the deformation result, only in the subsequent drying process, which is associated with a shrinkage of the moldings or in the firing process, where a shrinkage of the moldings is also effective. These deficiencies are visible through cracks, which in addition to sensitive degradation the strength can even cause the complete destruction of the products. Typical of this deficiency in the Deformation is the shape of the cracks and their local occurrence. This will cause cracks in the center of the briquettes, especially at Solid bricks that run axially and have the shape of an S are referred to in the specialist literature as S cracks and are too small Returned pressure in the press head, which is not sufficient, the divided by the end wings of the screw ceramic mass in the

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Welding the press head together (Haase: ceramics, 3 unchanged Edition, VEB Deutscher Verlag für Grundstoffindustrie Leipzig, 1970, p. 87, lines 26-30).

Cracks in the center of the bricks, especially in hollow bricks, such as ceiling, elongated and vertically perforated bricks, which also run axially in the webs or nodes, but often do not reach the cut surfaces of the bricks and have their greatest width in the center, appear in the specialist literature Origin after interpreted differently. Some authors attribute these cracks to thermal stresses during the heating-up period during the firing process (Hilker: To identify and prevent quality-reducing firing errors, Die Ziegelindustrie, Heft 5, 1975, Bauverlag Wiesbaden, p. Spplte 2 "Warm-up period ¹¹ to p. 182, column 2, paragraph 3) .

Other authors explain the formation of these cracks as a result of different dehydration in the drying process and the the resulting shrinkage stress on the molding, which caused differences in shrinkage (Assenmacher: brick drying, theoretical and experimental principles, brickwork technology yearbook 1967, Bauverlag GmbH Wiesbaden Berlin P. 208 to p. 217).

However, there are also indications in the specialist literature that that the causes of these cracks have not yet been clarified (Pels Leusden, Weber: Conditions for distortion-free drying of large block and plank bricks, Die Ziegelindustrie, Issue 7, 1975, p. 255, column 1 Paragraph 3, p. 260 column 2 number 1 to p. 261 column 1, number 4).

Measures are known from the technical literature and from patent specifications which are aimed at remedying the deficiencies described by means of special training, such as changed angles of inclination and different lengths of the press head, mouthpiece and Core walls or special internals, such as rigid or

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to fix adjustable brakes or baffles (Pels Leusdeni Shaping on extrusion presses, Ziegeleitechnisches Jahrbuch, 1975, Bauverlag GmbH Wiesbaden - Berlin, pp. 239 - 379 BRD PS-No. 935712 and BRD PS-No. 855673).

Since the effect of these measures is often not sufficient to remedy the deficiency described, another is concerned Group of measures to reduce the shrinkage by adding additives (Hilker: treatment more sensitive to dryness Raw materials, Die Ziegeleindustrie, Bauverlag GmbH Wiesbaden, pp. 338 - 345).

In cases where both groups of measures do not lead to a satisfactory result, all that remains is to change the Assortment of the products to be produced or the inclusion of another shaping process.

The technical object of the invention is the forming process to lead in such a way that the differences in the elastic changes in length are reduced or canceled out by one to ensure constant shrinkage in different areas of the molding.

It is known that ceramic raw materials have elastic properties in their plastic state and are therefore able to absorb potential energy when forces below the positive limit act, which when the flow limit is exceeded is retained and after the forces have subsided, when the yield point falls below the limit, in the form of elastic Change in length is released. It was found that the shrinkage differences occurring on the molding, the cracking cause and lead to the destruction of the molding, consequence of elastic changes in length with opposite Are signs, the absolute amounts of which add up.

Areas of the molded product that were subjected to stretching during the deformation have an elasticity by the amount

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Elongation greater shrinkage, while molded parts, which were subjected to a compression during the deformation, a smaller one by the amount of the elastic compression Show shrinkage. It has also been found that the reshaping of ceramic masses into hollow bricks in material nodes Result of differences in the delivery pressure between opposing surface and node areas will.

According to the invention, the difference between the elastic changes in length between compressed areas on the circumference and stretched areas in the center of the briquettes, that the forces acting non-axially on the circumference of the ceramic mass during the deformation are reduced and the direction of their work lines in the area of the molding edges to be formed is changed so that they correspond to the axially acting Forces are not opposed and cause an elongation on the periphery of the briquettes.

Technically, this requirement can be met in that the ceramic mass has a cross section in the area of laminar flow smaller circumference to a cross section of larger circumference, is formed according to the desired molding dimensions. The difference in scope is in the order of magnitude the elastic expansion of the mass to be formed in order to achieve the required dimensions for the desired molding To achieve stress on the circumference. To change the direction of the lines of action of non-axially acting forces in Edge areas of the briquettes, it is useful to choose the cross-section of smaller circumference as an ellipse. Characteristic for the inventive method of reshaping ceramic masses are the pressures in the molds, the are no longer aimed at the compression of the mass to be formed, but assume values of their flow limit.

The device for performing the method consists of the base plate with a central opening into which the Mante / 1 of the molding tool that is attached to the base plate _f

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protrudes and is flush. The mold is designed in such a way that that the inlet cross-section on the shaped piece is continuously in the shaping section on the molding cross-section changes at the mouthpiece outlet. To carry out the process, the opening of the screw cylinder of the press is made by means of the base plate closed so that there are no laminar flow areas between the end wings of the screw and the base plate * can train the mass to be formed. The mass conveyed by the screw passes through the opening of the forming piece enters the forming section and is subjected to axial pressure by the resistances of the mouthpiece. As a result of the resulting forces whose lines of action extend from the center of the mass to be formed to its circumference are directed, the mass to be formed assumes the cross-sections of the forming path and is subject to the specified elongation their scope. Thus, the elastic expansion that occurs at the periphery of the briquettes reaches amounts to those of the elastic ones Corresponding to the stress at the yield point of the mass to be formed.

The device for performing the method Figure 1 consists of the base plate 1 and the molding tool, its jacket engages in an opening in the base plate 1 and closes flush. The forming tool, consisting of the forming piece 2 and the mouthpiece 3 »is releasably locked with the base plate 1. The inlet cross section e on Umformetüok 2 is useful designed as an ellipse whose circumference by the length of the required elastic elongation is shorter than the circumference of the Moldings at the outlet cross section a of the mouthpiece 3 is. The ellipse is expediently at the inlet cross section e of the deformed piece 2 so that the difference between its minor axis and the width of the outlet cross-section a equal to the difference between its major axis and the length of the exit cross-section a is on the mouthpiece 3.

FIG. 2 shows the course of the forming path in the molding tool, which is designed so that the mass to be molded is stepless of elliptical cross-section e under constant expansion

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of the Urafange is reshaped to the desired cross-section a of the briquettes.

FIG. 3 shows the outlines of the inlet cross section e and the outlet cross section a of the molding tool. Sections A - A, B - B and C - C in FIGS. A, 5 and 6 illustrate the differences compared to the conventional molding tools. When producing bricks that do not have any perforated cross-sections, the molding tool must be designed in the same way, taking into account the lower stress in the center for elongation.

The method according to the invention is used specifically for forming ceramic masses to hollow bricks, such as vertical, elongated and ceiling bricks. When used analogously, it is also used for Reshaping of ceramic masses into pipes or other hollow profiles can be used.

The use of this process for reshaping ceramic bodies has the following advantages:

- Energy savings during forming due to lower pressures in the molding tool

- Reduction of the reject rate in the subsequent drying and firing process as a result of reduced shrinkage differences the moldings

- Shortening of the process times for drying and firing the moldings

- Increase in the strength and frost resistance of the finished products as a result of the low-texture structure

- Manufacture of products with substantial, larger dimensions

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Claims (1)

-Jg- Claims Method for forming plastic, in particular ceramic, Lias sen on screw presses preferably See below hollow bricks, characterized in that the ceramic mass in the area of laminar flow by means of a molding tool on the circumference given an expansion corresponding to the relative elastic expansion of the mass whose amount is reached on the circumference of the briquettes. Device for carrying out the method, characterized in that it is attached to a base plate Forming tool, consisting of forming piece and mouthpiece, is designed so that the circumference of the uniform range starting at the inlet cross-section of the formed piece steplessly up to the outlet cross-section at the mouthpiece increases by the length of the elastic expansion of the ceramic mass. 709849/0681 OfIlQlNAL INSPECTED