• 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:
    Silicon carbide-based abrasive grit having a binder-free coating of highly disperse silicon oxide, aluminium oxide or titanium oxide is described for preferred use in resin-bound or ceramic-bound abrasive elements.
    公开号:SU1722231A3
    申请号:SU894614340
    申请日:1989-06-16
    公开日:1992-03-23
    发明作者:Кунц Райнер;Дитрих Райнер
    申请人:Лонца Аг (Фирма);
    IPC主号:
    专利说明:

    The invention relates to a surface-treated abrasive grain based on silicon carbide and its use in grinding wheels with a polymer or ceramic binder.
    Silicon carbide is one of the most important abrasive materials, used in particular for grinding and cutting hard and brittle materials, and is used as a loose abrasive material, as well as abrasive tools on the substrate and abrasives for abrasive products, such as grinding and cutting circles. The grinding performance and, in particular, the wear or service life of abrasive products depends not only on the properties of the abrasive grain itself, but also on the method and strength of embedding the abrasive in the binder. In particular, in the case of polymer bound abrasives, the bond strength
    Silicon carbide grains in a binder, as a rule, is a quantity that determines productivity and wear. Therefore, attempts have been made to improve the adhesion of the very smooth surfaces of silicon carbide by suitable treatment.
    A known method for producing a ceramic coating that covers the grains as a glaze (US Patent No. 1,910,444). If hard-to-melt material is added to the coating with a particle size that is significantly smaller than the size of the abrasive material, a rough coating is obtained (US Patent No. 2527044).
    Also known is a method for producing a modified grinding grain with 0.1-15% by weight of a coating of an inorganic filler, for example a hydrophilic metal oxide, deposited with an inorganic or organic binder 1.
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    The aim of the invention is to improve the retention of the abrasive grain in connection with the abrasive tool.
    The goal is achieved by coating the abrasive grain with highly dispersed hydrophilic metal oxide without an additional binder. The grain size of silicon carbide abrasive can be in both macro and microinterval in accordance with standard FEPA. Silica, alumina or titanium dioxide can be used as a highly dispersed hydrophilic metal oxide, either individually or in a mixture. Highly dispersed hydrophilic metal oxide, it is advisable to apply in an amount of 0.01-5%, preferably 0.2-1.0% (by weight of the sample). The primary particle size (dso) of a highly dispersed hydrophilic metal oxide is 1-500 nm, preferably 7-40 nm, the BET specific surface area is 5-500 m2 / g, 50-400 m2 / g.
    The application of highly dispersed hydrophilic metal oxide to the abrasive grain is carried out by mixing it with highly dispersed hydrophilic metal oxide in dry form.
    Suitable mixers are gravity mixers (for example, a rotating drum mixer or a de-cone drum mixer) or a mixer with rotating mixing elements (paddle or paddle mixers).
    It is also possible to use abrasive grains in combination with other abrasives for the production of abrasive products, in particular with diamond abrasives or abrasives from cubic boron nitride. The silicon carbide abrasive grain can be used as the main grain in the grinding area of the abrasive product, as well as to enhance and improve the heat removal in the main bearing products.
    Example 1. A portion of silicon carbide (carbogran dark F24, Lonzawerkembmb, Walo / hat) is divided into two parts and one half is treated with 0.5 wt.% Hydrophilic (primary particle size dso-20 nm, specific surface area (BET) 100 ± 15 m2 / g) by dry mixing in a gravity mixer. From this grain, under constant conditions, cutting discs are prepared as follows.
    Raw materials (73% by weight of grains, 13% by weight of cryolite filler, 14% by weight of powdered and liquid phenolic resin) are added into a homogeneous bulk mass by adding the liquid part of the phenolic resin.
    this is pressed; in the mold at a pressure of 200 kg / cm. The curing of the discs is carried out in an oven at 190 ° C.
    Efficacy is determined on conventional
    the sanding machine on vibration-compacted concrete bars x with a diameter of 80 x 60 mm; 5 incisions were made with each disc and a reduction in its diameter was taken as a measure of the effectiveness of the disc.
    The results are shown in Table. 1 (the size of the disk is 230 x 2.5 x 22 mm).
    PRI mme R 2. By analogy with example 1, receive and test cutting discs.
    The composition of the disk, wt.%: Abrasive grain 78, filler (cryolite) 8, powdered and liquid phenolic resin 14.
    The results are shown in Table. 2 (size of disks 230 x 3 x 22 mm).
    PRI me R 3. A batch of industrial silicon carbide (Gotthardwerke Bodlo carbograng, grain size 0.4-1 mm) is divided into five parts. One part of the mixture as a standard is not treated. The remaining four parts are treated so that the grains are coated by mixing in a gravity mixer:
    0.5 wt.% Hydrophilic, nm, specific surface area (BET) 100 ± 15 m2 / g
    (but); 0.5 wt.% Hydrophilic TiOa, nm, specific surface area (BET) 50 ± 15 m2 / g (b); 0.5 wt.% Hydrophilic SiOa, nm, specific surface area (BET) 380 ± 30 m3 / g (V); 0.2 wt.% Hydrophilic SiOa,,
    The specific surface area (BET) is 60 ± 15 m2 / g (g). The remaining steps are carried out as in Example 1.
    The results are shown in Table. 3 (sizes of disks 230 x 2.5 x 22 mm).
    Example4 (comparative). Silicon carbide with a grain size of F 24 (Carbogran® Lonza-Werke) is coated as in Example 1 to 1. The manufacture of the cutting discs and the subsequent testing of these discs are carried out as in Example 1,
    20 kg of silicon carbide F 24 is mixed with a dispersion of 200 ml of acrylic ester RAD-21A (Fa. Bostik, D-6370 oberursel) and 800 ml of water and moistened. Then
    500 g of highly dispersed alumina (nm, surface area (BET) 100 ± 15 m2 / g) and 42 g of calcium stearate are intensively mixed into this mixture. The mixture is dried for 10 minutes at
    120 ° C, and then the resulting lumps thoroughly crushed and sieved. From the abrasive grain obtained in this way, cutting discs with dimensions 230 x 2.5 x are manufactured analogously to example 1
    x22 mm, and five cuts were made with each disc. The discs are then tested on concrete beams with a cross section of 80 x 60 mm. The results are shown in Table. four.
    Example 5. Silicon carbide with a grain size of F 800 produces grinding wheels with dimensions of 760 x 75 x x 304.8 mm (outer diameter x thickness x hole diameter) in connection based on synthetic resin. For this purpose, silicon carbide F 800 is used in its raw form with a coating of 5 May. % of finely dispersed AO3 (nm, specific surface area (BETM 00 ± 15 m2 / g).
    The composition of the circle, wt.%: SICF 800 (in processed or unprocessed form) 84.5; liquid resin (such as resol, bakelite SW 436, Fa. Raschig, D-6700 Ludwlgshafen) 5.5: powder resin (such as novolak, bakelite SP 222, Fa Raschig) 10.0.
    The abrasive grain in the mixer is wetted with a liquid resin. Then the powder resin is intensively mixed. Grinding wheels are pressed under a pressure of 150 kg / cm and cured for 60 hours at 180 ° C.
    The grinding wheels thus obtained are used for fine grinding of steel rolls (steel HSS, HRG 65) with dimensions of 600 x 700 (diameter x length) with a working speed of 32 m / s up to a micron roughness of 0.05 microns.
    Due to the use of grinding wheels made of abrasive grains coated according to the invention, the grinding time of one roll is reduced (2.5 hours compared to 3.0 hours when grinding with untreated abrasive grain). By coating, the durability of the grinding wheel is increased by 20%.
    Example Similarly to the example, silicon carbide (carbogran -, dark, F 24, Lonza-Werke) cutting discs are made of silicon. The abrasive grain is treated with 0.01 wt.% Highly dispersed hydrophilic SI02 (nm, specific surface area (BET) 500 ± 40 m2 / g).
    The break rate and disk density of the cutting discs from the abrasive grain treated according to the invention remain as compared with the break speed and disk density of the cutting discs from the raw abrasive grain without a sudden change. However, the relative efficiency is increased and is 108%. PRI me R 7. Similar to example 1
    made of silicon carbide (carbogran% dark, F 24, Lonza-Werke) cutting discs. The abrasive grain is treated with 1 wt.% Hydrophilic SI02 (nm, specific surface area (BET) 5 ± 0.5 m2 / g).
    The relative efficiency of the cutting discs is enhanced by the treatment of the abrasive grain according to the invention and is 106%.
    权利要求:
    Claims (4)
    [1]
    1. An abrasive grain based on silicon carbide with a coating of 0.01-5% by weight of the abrasive grain of a highly dispersed hydrophilic metal oxide from the group of silicon dioxide, aluminum oxide, and titanium dioxide, characterized in that, in order to improve the retention of the abrasive grain in abrasive tool, highly dispersed hydrophilic oxide has
    the average size of the primary particles is 5–500 nm in dso value and the specific surface area is 5–500 m2 / g according to BET.
    [2]
    2. The abrasive grain according to claim 1, of which is highly dispersed
    hydrophilic metal oxide deposited in an amount of 0.2-1.0% by weight of the abrasive grain.
    [3]
    3. Abrasive grain on the PP. 1 and 2, which is due to the fact that it is highly dispersed
    hydrophilic metal oxide has an average size of primary particles of 7-40 nm in the value of dso and a specific surface of 50-400 m2 / g according to BET.
    [4]
    4. Method of making abrasive
    grains based on silicon carbide coated with highly dispersed hydrophilic metal oxide by mixing silicon carbide with highly dispersed hydrophilic oxide from the group of: silica, alumina, titanium dioxide, characterized in that, in order to improve the abrasive grain in connection with the abrasive tool, the said oxide metal has an average primary particle size of 5-500 nm
    in the value of dso and the specific surface area of 5-500 m2 / g according to BET, and mixing is carried out in a dry state.
    Table 1
    table 2
    Table 3
    Table 4
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    同族专利:
    公开号 | 公开日
    AT81116T|1992-10-15|
    PT90894B|1995-01-31|
    CH675250A5|1990-09-14|
    PT90894A|1989-12-29|
    US5009675A|1991-04-23|
    EP0346832A2|1989-12-20|
    DE58902354D1|1992-11-05|
    JPH0234685A|1990-02-05|
    EP0346832A3|1991-03-27|
    NO892434L|1989-12-18|
    NO892434D0|1989-06-13|
    ES2035440T3|1993-04-16|
    BR8902916A|1990-02-06|
    EP0346832B1|1992-09-30|
    引用文献:
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    CH2356/88A|CH675250A5|1988-06-17|1988-06-17|
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