公开(公告)号：SE339518B

公开(公告)日：1971-10-11

申请号：SE1756566

申请日：1966-12-22

Applicant: IBM

Inventor： GREBE K ,  BARTKUS E ,  BROWNLOW J

IPC: H01F10/10 ,  H01F10/20 ,  G11C5/00

Abstract: 1,137,288. Magnetic data-storage apparatus. INTERNATIONAL BUSINESS MACHINES CORP. 10 Nov., 1966 [23 Dec.; 1965], No. 50346/66. Heading H3B. [Also in Divisions D1 and H1] A storage device is produced by forming a layer of green magnetic ferrite around a cylindrical substrate, surrounding this layer with a green non-magnetic ferrite, slicing both ferrites, and sintering the slices. The magnetic ferrite may be Fe 1 . 62 Mn 0 . 80 Cu 0 . 45 Zn 0 . 10 Bi 0 . 02 La 0 . 01 O 4 and may be prepared by ball-milling a mixture of Fe, Cu, Zn and Bi oxides, MnCO 3 , and LaFeO 3 , passing it through a 20-mesh screen, calcining at 650‹ C., remilling, passing it through a 325-mesh screen, and drying. The non-magnetic ferrite may be Fe 1 . 2 Mn 0 . 78 Cu 0 . 3 Zn 0 . 7 Bi 0 . 02 0 4 or Fe 0 . 8 Mn 1 . 48 Cu 0 . 2 Zn 0 . 5 Bi 0 . 02 O 4 . A barrier layer, e.g. of Mn 3 O 4 , Cr 2 O 3 , Mn 3 O 4 + Cr 2 O 3 or Mn 3 O 4 +ZnO, may be provided between the two ferrites. The substrate may be a nylon filament which may be coated with a release agent, e.g. colloidal wax in water, and removed by pulling from one end. The magnetic and barrier layers may be applied by passing a continuous length of the filament through a suspension of the material and then passing it twice through an oven (at 70‹ and 80‹ C., using a nitrocellulose-amyl acetate solution, and at 100‹ and 110‹ C., using an epoxy resin solution); this process is repeated five times and the filament is then passed through an oven (at 85‹ or 125‹ C. resp.) 10 times. The structure may then be similarly coated with the non- magnetic ferrite, and a number of such structures cast in a wax or polyethylene block; the filament is then removed, the block sliced, and the wax melted off by heating to 100- 125‹ C. Alternatively, the structures may be cast in a block of the non-magnetic ferrite, which is dried at 90‹ C. in the mould and then at 100‹ C.; the filament is removed; and the block is then sliced either perpendicular to or along the axes of the cores (in the latter case the two halves are turned through 90 degrees before firing). Firing may be effected in a Ni boat coated with Mn 3 O 4 , initially at 600‹ C. to drive off the binder, and then at 920‹ C. The magnetic layer may have an inner diameter of 3 or 4À5 mils.

公开(公告)号：SE315311B

公开(公告)日：1969-09-29

申请号：SE74864

申请日：1964-01-22

Applicant: IBM

Inventor： BARTKUS E ,  BROWNLOW J ,  ELFANT R ,  GREBE K

IPC: G11C7/02 ,  G11C11/06 ,  G11B11/02

Abstract: 1,023,627. Magnetic storage devices. INTERNATIONAL BUSINESS MACHINES CORPORATION. Oct. 26, 1964 [Nov. 21, 1963], No. 43506/64. Addition to 998,891. Heading H3B. [Also in Division H1] The tubular storage device described in the parent Specification is modified by the use of hole pairs for the conductors B in the form of two parallel slits 18 arranged longitudinally of the tube 12, each conductor B being made of strip material. The tube is formed by a magnetic U-shaped trough 14 and a magnetic closure plate 16, the same or different materials being used. The magnetization characteristic of the magnetic material need not be rectangular.

公开(公告)号：SE324805B

公开(公告)日：1970-06-15

申请号：SE640363

申请日：1963-06-10

Applicant: IBM

Inventor： BROWNLOW J ,  GREBE K

IPC: G11B5/64 ,  G11B5/70 ,  G11B5/702 ,  G11C11/06 ,  H01F41/16 ,  G11C11/04

Abstract: 997,326. Magnetic storage apparatus. INTERNATIONAL BUSINESS MACHINES CORPORATION. June 26, 1963 [June 29, 1962], No. 25327/63. Heading H3B. [Also in Division HI] A magnetic storage array is manufactured by coating conductive wires with successive layers of wax and a ferrite resin mixture, mounting the wires in parallel alignment in two open frames, orienting the frames so that the wires are orthogonal, pressing the frames together so that the wire coatings adhere, cutting the wires away from the frames after partial curing has taken place and finally sintering the ferrite at higher temperatures. The wax and resin are burnt away during the sintering process, the wax providing a space between the wires and the surrounding ferrite which prevents fracturing of the magnetic material. The co-ordinate wires may be positioned either as shown in Fig. 1A or Fig. 2, the latter arrangement providing a web of ferrite 3 between the wires 4, 5 at each crossing point. Where more than one wire is provided in each co-ordinate at each crossing point, these wires are insulated and twisted together in Fig. 3 (not shown). Depending on the materials used, the suggested temperatures for the process are 25-150‹ C. for partial curing, increasing to 100-150‹ C. to melt the wax coating. The temperature is then raised, firstly to 600‹ C. to remove the resin and plasticizer and then to 900-1400‹ C. to sinter the ferrite. Annealed platinum, palladium, silver or copper may be used for the wires, and the wax coating may be either natural or synthetic such as beeswax, carnauba wax, polyethylene wax or paraffin wax. Other suitable wax-like substances are polyvinyl acetate, polyvinyl chloride and their copolymers. The ferrite resin comprises 40-80% by weight of calcinated ferrite powder, 5-60% of thermosetting resin plus catalyst and 0-30% of plasticizers. Suitable ferrite powders exhibiting the required rectangular hystesis loop are Fe 1 . 83 Mn 1 . 08 Cu. 09 O 4 , Fe 1 . 68 Mn 1 . 25 Cr. 06 Ni. 03 O 4 , Fe 1 . 7 Mn. 6 Mg. 7 O 4 , and Fe 1 . 65 Mn 0 . 95 Cr. 10 Zn. 25 Cu. 02 O 4 . The resins may be epoxy resins, polyester resins, melamine-formaldehyde resins or phenol aldehyde resins. Suitable catalysts for the resins are described, and examples of various viscosity control agents are given such as pine and castor oils, butyl glycidyl ether or a 1: 1 mixture of methyl ethyl ketone and amyl acetate. A modification is described in which rayon fibres are used instead of certain of the wires, the fibres being burnt out by the heat treatment to provide a hollow ferrite structure through which pluralities of metallic conductors are later threaded.

公开(公告)号：SE307916B

公开(公告)日：1969-01-20

申请号：SE131464

申请日：1964-02-04

Applicant: IBM

Inventor： BROWNLOW J

IPC: C04B35/26 ,  C04B35/38

Abstract: 1,024,456. Magnetic compositions and structures. INTERNATIONAL BUSINESS MACHINES CORPORATION. Feb. 4, 1964 [Feb. 4, 1963], No. 4677/64. Heading H1H. A ferrite of predominantly spinel structure includes iron, manganese, copper, at least one of germanium and titanium, and at least one of zinc and cadmium, and has the formula:- where x+y+z+a+b+c+d+e+f+g+h=3 The ferrite may be used in magnetic core stores of the kind in which blobs of ferrite are formed on a; matrix of crossed wires.