• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a filler used in paper manufacture and mainly consisting of calcium carbonate, and to a procedure for producing the filler. The filler consists of porous aggregates formed by precipitated calcium carbonate particles. In the procedure, calcium carbonate is precipitated.
    公开号:US20010000063A1
    申请号:US09/726,843
    申请日:2000-11-30
    公开日:2001-03-29
    发明作者:Petri Silenius;Markku Leskela
    申请人:Petri Silenius;Markku Leskela;
    IPC主号:D21H17-69
    专利说明:
    [1] 1. The present invention relates to a filler for use in paper manufacture as defined in the preamble of claim 1. Moreover, the invention relates to a procedure for producing said filler.
    [2] 2. In the present application, ‘paper’ refers to various kinds of paper and cardboard, manufactured with paper and cardboard machines, coated or uncoated.
    [3] 3. Today, the direction of development of paper products is to an increasing degree determined by customers and legislative measures. The buyers of printing paper want to reduce the postage expenses and the amount of waste produced. Further, packages are subject to waste processing charges dependent on weight. Generally, it seems that energy taxes and environmental protection taxes are being imposed on the price of paper products as a permanent extra encumbrance. For these reasons, paper buyers want products which have a lower grammage while still meeting high quality standards.
    [4] 4. Specification FI 931584 presents a composite product based on chemical pulp fibre or mechanical pulp fibre, with calcium carbonate crystals precipitated onto the surface of the product. Further, specification FI 944355 presents a precipitated calcium carbonate, which is in the form of calcite particle aggregates where at least 25% of the particles are of a prismatic shape. Precipitation is performed using a seed material. Further, specification EP 0604095 presents a procedure for the processing of waste material whereby calcium carbonate is precipitated onto the surface of waste material containing inorganic matter; the waste material may contain organic waste fibre, e.g. waste fibre contained in the effluent of a paper mill, with fibre length below 75 μm. The calcium carbonate products described in the specifications referred to are intended to be used as fillers in paper manufacture.
    [5] 5. In the manufacture of high-quality paper, the aim is to produce the paper with a minimum amount of raw material. When the grammage of the paper is reduced, its opacity becomes a critical factor. The opacity can be increased by increasing the filler content of the paper, which, however, generally reduces its strength. Therefore, the aim is to alter the structure of the paper while at the same time preserving the important good product qualities. For paper based communication to remain competitive in relation to electric communication, the printing quality of paper products has to be further improved. These general development trends impose very high requirements on the raw materials and manufacturing processes used in paper production. To meet the requirements, very intensive efforts have been made in recent times to develop paper raw materials and manufacturing processes.
    [6] 6. The object of the present invention is to produce a new kind of calcium carbonate based filler for paper manufacture that meets the criteria described above.
    [7] 7. A further object of the invention is to produce a new kind of calcium carbonate based filler which has better optic properties than earlier calcium carbonate based fillers.
    [8] 8. A further object of the invention is to produce a new kind of calcium carbonate based filler which gives the paper better strength properties, especially a better tensile strength, than earlier calcium carbonate based fillers.
    [9] 9. A further object of the invention is to produce a new kind of calcium carbonate based filler which gives the paper a lower grammage than earlier calcium carbonate based fillers.
    [10] 10. A further object of the invention is to produce a new kind of calcium carbonate based filler which has a higher retention than earlier calcium carbonate based fillers.
    [11] 11. A further object of the invention is to produce a new kind of calcium carbonate based filler which reduces the overall costs of paper manufacture.
    [12] 12. An additional object of the invention is to present a procedure for the manufacture of said filler.
    [13] 13. As for the features characteristic of the invention, reference is made to the claims.
    [14] 14. The invention is based, among other things, on the fact, established via corresponding investigations, that calcium carbonate can be precipitated in a way that causes it to effectively adhere to fibres and noil fibrils. The precipitation can be so performed that porous calcium carbonate aggregates held together by fibrils, i.e. fine fibres, are formed, which aggregates contain plenty of empty space and in which the calcium carbonate particles have precipitated onto the noil fibrils, adhering to them. The noil fibrils with calcium carbonate particles precipitated on them form fibres resembling pearl necklaces, and the calcium carbonate aggregates resemble clusters of pearl necklaces. The aggregates have a very large ratio of effective volume to mass as compared with the corresponding ratio of conventional calcium carbonate used as filler; effective volume here means the volume taken up by pigment in the paper.
    [15] 15. The noil fibrils used in the filler of the invention are obtained from cellulose fibre and/or mechanical pulp fibre. The fibrils are produced from cellulose fibre and/or mechanical pulp fibre by refining. Furthermore, the noil fibrils are preferably divided into fractions, thickness 0.1-2 μm, length mainly 10-400 μm, suitably 10-300 μm, preferably 10-150 μm. Thus, the noil fibrils consist of cellulose fibre and/or mechanical pulp fibre, which means that they contain no significant amounts of inorganic matter, preferably no inorganic matter at all.
    [16] 16. The diameter of the calcium carbonate particles in the aggregate is of the order of about 0.2-3 μm, preferably about 0.3-1.5 μm.
    [17] 17. The diameter of the CaCO3 crystal aggregates is of the order of about 2-10 μm.
    [18] 18. Cellulose based noil also contains roundish noil particles which, after the precipitation process, are covered with calcium carbonate particles. In this case, as to its properties, a particle of calcium carbonate filler corresponds in the first place to a hollow filler particle having a small unit weight. In reality, the pigment is not completely hollow, because it contains noil; however, the noil has a lower unit weight than calcium carbonate, therefore the particle has a very low unit weight.
    [19] 19. The new precipitated, calcium carbonate based filler of the invention bestows paper better optic properties and a clearly greater strength than prior-art calcium carbonate based fillers do. Furthermore, the filler of the invention allows the filler content of paper to be increased without impairing its other properties, e.g. the aforementioned strength properties, such as tensile strength. This is a significant contribution towards lowering the grammage of paper.
    [20] 20. Further, the new filler of the invention has a clearly better retention in paper manufacture than prior-art calcium carbonate based fillers.
    [21] 21. In consequence of the aforesaid factors, it is generally possible to achieve cost savings in paper manufacture by using the filler of the invention.
    [22] 22. In prior art, light filler pigments are known, e.g. hollow plastic pigments, which are supposed to provide the same advantages as the calcium carbonate based filler of the present invention. However, plastic pigments are expensive, which restricts their use. When the filler of the invention is compared with pore filled or lumen filled fibre, it is to be noted that, unlike in the case of aforesaid fibres, the calcium carbonate in the filler of the invention is not inside individual noil fibres but on the surface of the noil. In addition, the mass ratio of calcium carbonate and fibrous matter is much larger in the filler of the invention than in pore filled or lumen filled fibre. Thus, the filler of the invention is a completely new product, and it should not be confused with prior-art pore filled or lumen filled fibre.
    [23] 23. The filler of the invention and the procedure for its manufacture differ from the specification FI 931584 referred to in the introduction especially on the basis of the thickness and length of the noil fibrils, i.e. in the present application, the noil fibrils have been refined with a pulp refiner. From the filler and manufacturing method described in specification FI 944355, the filler and manufacturing method of the present invention likewise differ in respect of the refined noil fibrils; in addition, in the specification referred to, the calcite particles are of a prismatic shape and their production requires the use of a special seed material. With respect to the product and procedure presented in specification EP 0604095, the product and procedure of the present invention likewise differ on the basis of the refinement and size of the noil fibrils; in addition, the fibre material used in the specification referred to is waste fibre containing inorganic or other matter. In general, in addition to the differences stated above, the filler of the present invention differs from those described in the reference specifications on the basis of the good optic properties, strength properties and very high retention achieved, and especially on the basis of the combination of exceptionally good optic and strength properties.
    [24] 24. The fibre used in the procedure of the invention may consist of chemical, mechanical or semi-mechancial pulp produced by any pulp or paper manufacturing method known in itself, or a combination of these in arbitrary proportions, the proportion of each component being 0-100% by weight. The refining of the pulp into noil fibrils can be implemented using any pulp refiner known in itself in pulp processing industry. When desirable, the refined noil fibrils can be screened by any fractionating method known in itself in pulp processing, e.g. using a wire screen, into the desired fibril size.
    [25] 25. In precipitation, the noil, i.e. e.g. pulp based or other fibre based noil, is refined with a pulp refiner and screened, preferred fractions being e.g. wire screen fractions P100-P400.
    [26] 26. In the procedure of the invention, calcium carbonate can be precipitated from any suitable solution or mixture, e.g. from a mixture of Ca(OH)2 water solution and solid Ca(OH)2 or from a calcium hydroxide water solution. Thus, precipitation can be implemented using any substance that precipitates calcium carbonate, e.g. carbon dioxide, such as gaseous carbon dioxide, suitably 1-100%, preferably 10-100% carbon dioxide gas. Instead of calcium hydroxide and carbon dioxide, it is possible to use any reaction producing calcium carbonate, e.g. the reaction between calcium chloride and sodium carbonate, producing calcium carbonate and sodium chloride.
    [27] 27. The precipitation of calcium carbonate is performed on the surface of noil originating from cellulose fibre, suitably noil fibrils. The concentration of noil in the precipitation process is suitably 0.0001-18 w-%, preferably 0.4-10 w-%. When calcium hydroxide is used, the mass ratio of calcium hydroxide and cellulose fibres in precipitation is suitably 0.1- 20, preferably 1.4-4. The precipitation temperature is in the range 5-150° C., suitably 10-90 ° C., preferably 15-80 ° C.
    [28] 28. In the carbon dioxide method, the net reaction is
    [29] 29. In the chloride method, the net reaction is
    [30] 30. Calcium carbonate precipitates when the calcium compounds react according to the reaction equations. It is possible to influence the crystal size and/or shape by adjusting the reaction conditions.
    [31] 31. The precipitation can be advantageously effected in a specific reactor where e.g. calcium hydroxide and noil are mixed. The carbonation reaction is implemented by supplying carbon dioxide, e.g. gaseous carbon dioxide, into the reactor. The progress of the reaction can be monitored by measuring the pH and conductivity of the mixture. The mixing and the supply of gas can be terminated when the pH of the mixture has fallen to the value of about 7.5, depending on the pH value of the noil. The carbonation is carried out e.g. in a water solution or mixture of Ca(OH)2.
    [32] 32. If desirable, it is possible to add a dispersing agent, e.g. sodium hexametaphosphate (Na-HMF) or other dispersing agent(s), into the filler produced.
    [33] 33. The filler of the invention can be used as filler as such or in any ratio of mixture (0-100 %) with another filler or other fillers. The amount of filler used in paper is 0.1-50 w-%, preferably 0.1-30 w-%.
    [34] 34. The filler of the invention and the procedure for its manufacture are described in more detail in the following embodiment examples by referring to the attached drawings, in which
    [35] 35.FIG. 1 presents the equipment used in the procedure of the invention;
    [36] 36.FIGS. 2-4 present pictures taken of the filler of the invention by means of an electron microscope;
    [37] 37.FIGS. 5-8 present graphs representing the properties of the filler of the invention as compared with those of a prior-art filler. EXAMPLE 1 Production of Filler
    [38] 38. Bleached pine sulphate pulp was refined in a Valley laboratory hollander in accordance with the SCAN-C 25:-76 standard for 2.5 hours. The refined pulp was screened by means of a Bauer-McNett screen, initially using the wire sequence 14-50-100-200 mesh. The amount of dry matter screened at a time was 45 g. The fraction passed through the 200 mesh wire (P200 fraction) was saved and allowed to settle for 2 days, whereupon the aqueous phase on its surface was separated.
    [39] 39. The P200 fraction was further fractionated with the wire sequence 100-200-290-400 mesh. The 100 mesh wire was used to equalize the screening process and prevent the 200 mesh wire from getting blocked at the initial stage. The fraction passed through the 400 mesh wire (P400 fraction) was saved and, after the noil fraction had settled, the aqueous phase on the surface was separated.
    [40] 40. The P400 fraction was thickened by centrifugation to a consistency of 4.7 g/l, whereupon the noil was ready for use in the production of a filler.
    [41] 41. The filler was produced in a mixing tank reactor 1, FIG. 1. The reactor had a capacity of 5 litres and its temperature could be regulated via a water circulation system 2 in its casing. The reactor contained four vertical foul plates designed to increase the mixing efficiency. A gas mixture of carbon dioxide and nitrogen was supplied via a pipe 3 to a point below the mixer element. The flow and carbon dioxide content of the gas mixture could be adjusted by means of control valves 5, 6 provided in the gas pipes 3, 4. Measuring sensors 7, 8, 9 were placed in the reactor via holes in the cover. The measuring elements were connected to a computer 10, in which the measurement data was collected and stored.
    [42] 42. Precipitation was performed at a temperature of 35 ° C. and the carbon content of the gas mixture was adjusted to a value of 15% by volume; the reaction volume was 3.2 l.
    [43] 43. The filler was produced using three different Ca(OH)2/noil ratios. The proportions of raw materials are presented in Table 1. TABLE 1 Proportions of raw materialsPrecipitation 1 Precipitation 2 Precipitation 3mnoil, g 15 15 15 mCa(OH)2, g 22 35 50 Vnitrogen, l/min 5.25 8.36 11.94 Vcarbon dioxide, 0.93 1.48 2.11 l/min
    [44] 44. Before the reaction was started, the noil was homogenized by mixing it in the reactor for 5 min. at a mixing speed of 600 l/min. At this stage, a small nitrogen flow was used to prevent the gas pipes from getting blocked. After this, the mixing speed was adjusted to the value 1000 l/min, and calcium hydroxide was added into the reactor. The measuring sensors were placed in the reactor and the reaction was started by opening the CO2 flow as well. The progress of the reaction was monitored by measuring the pH, 8, and conductivity, 9, of the mixture. The mixing and gas supply were stopped when the pH, 8, had fallen to the value 7.5.
    [45] 45. Pictures of the product obtained were taken with an electron microscope (SEM), FIGS. 2, 3, 4. From the SEM pictures it can be seen that the product consists of porous calcium carbonate aggregates held together by noil fibrils and containing plenty of empty space, with CaCO3 particles precipitated onto the noil fibrils, adhering to them. The calcium carbonate particles in the aggregate have a diameter of 0.3-1.5 μm and a roundish and partly shuttle-like shape. The diameter of the aggregates varies between about 2-10 μm. The noil/CaCO3 fibrils can be described as resembling pearl necklaces and the aggregates as resembling clusters of pearl necklaces. There are also roundish noil particles (FIG. 3), and these are covered with tiny CaCO3 particles. In this case, we can even speak of a hollow CaCO3 pigment, which has a low unit weight (the pigment is not completely hollow because there is some noil inside it; however, noil has a lower unit weight than calcium carbonate). According to an X-ray diffraction analysis, 100% of the precipitated calcium carbonate consisted of calcite. EXAMPLE 2 Properties of Paper
    [46] 46. To test the technical potential of the filler in paper manufacture, a series of sheet tests were performed, in which the properties of the paper were compared when two fillers as provided by the invention and calcium carbonate fillers already available in the market, PCC (Albacar LO) and GC (Fincarb 6005) were used.
    [47] 47. For the production of laboratory sheets, a pulp mixture containing 75 w-% bleached mechanical pulp and 25 w-% bleached pine sulphate pulp was prepared. The pulp was refined in a Valley laboratory hollander to SR number 30 in accordance with the SCAN-C 25:76 standard, the refining time being 38 min.
    [48] 48. The fillers obtained from precipitations 1 and 2 presented in FIG. 1 were used undiluted in the production of laboratory sheets, and the filler from precipitation 3 was diluted to one half of its consistency after precipitation. For the production of reference sheets, solutions having a consistency of 25 g/l were prepared from commercial CaCO3 fillers.
    [49] 49. In a laboratory sheet mould, 60 g/m2 sheets were produced without circulation water according to the standards SCAN-C 26:76 and SCAN-M 5:76 except for drum drying and corresponding wet pressing of the sheets. As retention agents, cationic starch (Raisamyl 135) 0.65% and silica 0.15% of the fibre mass were used.
    [50] 50. For wet pressing corresponding to drum drying, the sheets were piled up as follows: Top of pile → press plate 2 dried blotting boards new blotting board laboratory sheet couching board 2 dried blotting boards Bottom of pile → press plate
    [51] 51. The sheet pile was placed in the press and it was pressed by applying a pressure of 490±kPa to the sheets for 4 minutes. After the wet pressing, the blotting boards on either side of the sheets were left sticking to the sheets and the sheets were placed in a cold drying drum. The sheets were dried in the drum at a temperature of 1000° C. for 2 h. After the drying, the blotting boards were released from the sheets and the sheets were seasoned for at least 24 h at a temperature of 23±1° C., the relative humidity being 50±2%.
    [52] 52. For the finished sheets, the calcium carbonate content, grammage, ISO whiteness, light-scattering coefficient and tensile index were determined. The results are presented in Tables 2, 3 and 4. TABLE 2 Paper properties obtained using a filler as provided by the inventionPrecipition 1 Precipitation 2 Precipitation 3CaCO3 content, % 10.2 15.8 12.1 17.1 12.8 17.7 grammage, g/m2 65.0 66.3 65.1 65.6 65.0 66.0 ISO whiteness, % 72.4 75.0 73.1 75.9 74.0 76.8 light-scattering 74.4 82.6 77.0 87.2 78.6 90.3 coeff., m2/kg tensile index, 48.8 47.4 50.0 44.9 45.4 40.7 Nm/g
    [53] 53. TABLE 3 Paper properties obtained using commercial CaCO3 fillersPCC GCCaCO3 content, % 11.8 18.3 22.9 11.6 18.0 22.0 grammage, g/m2 65.1 68.3 66.7 67.5 63.6 68.4 ISO whiteness, % 73.1 75.0 76.1 72.6 73.7 74.5 light-scattering 76.8 85.8 88.4 72.8 77.5 82.4 coeff., m2/kg tensile index, 33.3 28.4 26.6 36.9 31.6 28.7 Nm/g
    [54] 54. Calcium carbonate retention was on an average 92% for the filler of the invention, 64% for commercial precipitated calcium carbonate (PCC) and 62% for commercial ground calcium carbonate (GC). TABLE 4 Paper properties with mere pulp without filler CaCO3 content, % 0 grammage, g/m2 64.7 ISO whiteness, % 71.2 light-scattering coeff., m2/kg 62.0 tensile index, Nm/g 56.2
    [55] 55.FIGS. 5-8 present the results in the form of graphs. In FIGS. 5-8, the references S1, S2 and S2 correspond to the results shown in the table with fillers obtained from precipitations 1, 2 and 3, respectively; the references PCC and GC indicate results obtained with commercial precipitated calcium carbonate and ground calcium carbonate, respectively. FIGS. 5 and 6 indicate that the filler of the invention has better optic properties as compared with the corresponding properties with commercial CaCO3 fillers used in the same CaCO3 contents. FIG. 7 shows that the tensile strength in the case of the filler of the invention is clearly better than in the case of commercial CaCO3 fillers used in the same CaCO3 contents. In addition, FIG. 8 shows the light-scattering coefficient as a function of the tensile index. In this survey, both the optic properties of the paper and its runnability on a paper machine are considered. In this survey, the filler of the invention is clearly better than commercial CaCO3 fillers. In other words, with the same light-scattering coefficient values, the filler of the invention gives a clearly better tensile strength than do commercial CaCO3 fillers. From the graphs we can see a trend of improving optical properties and decreasing tensile strength of the paper as the ratio mCA(OH)2/mnoil in precipitation increases.
    [56] 56. The excellent properties of the new type of porous CaCO3 filler described in the foregoing allow the CaCO3 content to be increased and the grammage of paper to be further reduced without impairing other important qualities of paper. Considering the improved retention of the filler of the invention in paper manufacture, the aforesaid good results together also allow cost savings to be achieved.
    [57] 57. The embodiment examples are intended to illustrate the invention without limiting it in any way.
    权利要求:
    Claims (12)
    [1" id="US-20010000063-A1-CLM-00001] 1. Filler for use in paper manufacture, consisting of porous aggregates precipitated onto the surface of noil and formed by calcium carbonate particles, characterized in that the calcium carbonate is precipitated onto the surface of noil fibrils produced by refining from cellulose fibre and/or mechanical pulp fibre.
    [2" id="US-20010000063-A1-CLM-00002] 2. Filler as defined in
    claim 1 , characterized in that the calcium carbonate is precipitated onto the surface of fractionated noil fibrils forming CaCO3 crystal aggregates held together by the noil fibrils.
    [3" id="US-20010000063-A1-CLM-00003] 3. Filler as defined in
    claim 1 or
    2 , characterized in that the thickness of the noil fibrils is mainly 0.1-2 μm and the length mainly 10-400 μm, suitably 10-300 μm, preferably 10-150 μm.
    [4" id="US-20010000063-A1-CLM-00004] 4. Filler as defined in any one of claims 1-3, characterized in that the diameter of the calcium carbonate particles precipitated onto the surface of the noil fibrils is of the order of 0.2-3 μm.
    [5" id="US-20010000063-A1-CLM-00005] 5. Filler as defined in any one of claims 1-4, characterized in that the diameter of the CaCO3 crystal aggregates is 2-10 μm.
    [6" id="US-20010000063-A1-CLM-00006] 6. Filler as defined in any one of claims 1- 5, characterized in that the mass ratio of calcium carbonate and noil in the filler is 13.5-2700%.
    [7" id="US-20010000063-A1-CLM-00007] 7. Procedure for producing a filler for use in paper manufacture, said filler mainly consisting of porous aggregates formed by calcium carbonate particles, said calcium carbonate being precipitated onto the surface of noil, characterized in that the calcium carbonate is precipitated onto the surface of noil fibrils produced by refining from cellulose fibre and/or mechanical pulp fibre.
    [8" id="US-20010000063-A1-CLM-00008] 8. Procedure as defined in
    claim 7 , characterized in that the noil fibrils are so fractionated that their thickness is mainly 0.1-2 μm and their length mainly 10-400 μm, suitably 10-300 μm, preferably 10-150 μm.
    [9" id="US-20010000063-A1-CLM-00009] 9. Procedure as defined in
    claim 7 or
    8 , characterized in that the consistency of noil in precipitation is 0.0001-18% by weight, preferably 0.4-1.0% by weight.
    [10" id="US-20010000063-A1-CLM-00010] 10. Procedure as defined in any one of claims 7-9, characterized in that the precipitation is performed using carbon dioxide and that the mass ratio of calcium hydroxide and noil in precipitation is 0.1-20, preferably 1.4-4.
    [11" id="US-20010000063-A1-CLM-00011] 11. Procedure as defined in any one of claims 7-9, characterized in that the precipitation is performed by a chloride method and that the mass ratio of calcium chloride and noil in precipitation is 0.15-30, preferably 2.1-6.
    [12" id="US-20010000063-A1-CLM-00012] 12. Procedure as defined in any one of claims 7-11, characterized in that the precipitation temperature is 5-150° C., preferably 10-90° C., more preferably 15-80° C.
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    同族专利:
    公开号 | 公开日
    EP0835343A1|1998-04-15|
    FI953238A0|1995-06-29|
    DE69615192D1|2001-10-18|
    PT835343E|2002-01-30|
    US20020084050A1|2002-07-04|
    DK0835343T3|2001-11-12|
    EP0835343B1|2001-09-12|
    AU6227096A|1997-01-30|
    NZ311044A|1998-07-28|
    US6251222B1|2001-06-26|
    CA2223955A1|1997-01-16|
    CA2223955C|2010-02-02|
    AT205562T|2001-09-15|
    ES2163640T3|2002-02-01|
    JPH11508331A|1999-07-21|
    DE69615192T2|2002-07-04|
    AU699733B2|1998-12-10|
    FI100729B|1998-02-13|
    FI953238A|1996-12-30|
    US6599391B2|2003-07-29|
    US6375794B2|2002-04-23|
    WO1997001670A1|1997-01-16|
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    优先权:
    申请号 | 申请日 | 专利标题
    FI953238A|FI100729B|1995-06-29|1995-06-29|Filler used in papermaking and method of making the filler|
    FI953238||1995-06-29||
    US08/973,926|US6251222B1|1995-06-29|1997-04-04|Filler for use in paper manufacture and procedure for producing a filler|
    US09/726,843|US6375794B2|1995-06-29|2000-11-30|Filler for use in paper manufacture and procedure for producing a filler|US09/726,843| US6375794B2|1995-06-29|2000-11-30|Filler for use in paper manufacture and procedure for producing a filler|
    US10/033,678| US6599391B2|1995-06-29|2001-12-27|Filler for use in paper manufacture and procedure for producing a filler|
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