公开(公告)号：US12122094B2

公开(公告)日：2024-10-22

申请号：US17054573

申请日：2019-03-22

Applicant: Hewlett-Packard Development Company, L.P.

Inventor： Tienteh Chen

IPC: B29C64/165 ,  B22F1/103 ,  B22F1/107 ,  B22F1/145 ,  B22F10/14 ,  B22F12/13 ,  B29C64/295 ,  B29K75/00 ,  B29K505/12 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y70/10 ,  C08G18/32 ,  C08G18/34 ,  C08G18/62 ,  C08K3/11 ,  C09D11/037 ,  C09D11/102 ,  C09D175/14

CPC classification number: B29C64/165 ,  B22F1/103 ,  B22F1/107 ,  B22F1/147 ,  B22F10/14 ,  B22F12/13 ,  B29C64/295 ,  B33Y30/00 ,  B33Y70/10 ,  C08G18/3206 ,  C08G18/348 ,  C08G18/6225 ,  C09D11/037 ,  C09D11/102 ,  C09D175/14 ,  B22F2301/35 ,  B22F2304/10 ,  B29K2075/00 ,  B29K2505/12 ,  B33Y10/00 ,  C08K3/11 ,  C08K2201/005

Abstract: The present disclosure describes three-dimensional printing kits, systems for three-dimensional printing, and methods of three-dimensional printing. In one example, a three-dimensional printing kit can include a particulate build material and a binding agent. The particulate build material can include metal particles. The binding agent can include a polyhydroxy polyol and a water-dispersible blocked polyisocyanate having multiple blocked isocyanate groups. The blocked isocyanate groups can include a blocking group bonded to the carbon atom of the blocked isocyanate group through a labile bond breakable by heating to a deblocking temperature. Breaking the labile bond can produce a released blocking group reacted with hydrogen and an isocyanate group.

公开(公告)号：US11999082B2

公开(公告)日：2024-06-04

申请号：US18494793

申请日：2023-10-26

Applicant: Huazhong University of Science and Technology

Inventor： Renfu Li ,  Yichao Li ,  Ao Sun ,  Jiaji Sun

IPC: B29C35/08 ,  B29C39/00 ,  B29C39/38 ,  B29K63/00 ,  B29K505/12

CPC classification number: B29C35/0805 ,  B29C39/003 ,  B29C39/38 ,  B29C2035/0811 ,  B29K2063/00 ,  B29K2505/12

Abstract: The present invention provides a fast-curing molding process for epoxy resin. The method includes the following steps: S1, mixing epoxy resin A glue and a protein-grafted manganese-zinc-iron oxide nanomaterial well into a colloidal state, and grounding the mixture for 10 to 30 min; S2, adding epoxy resin B glue to the mixed colloid in S1, and performing ultrasonic dispersion at 20 to 30° C. for 10 to 30 min; and S3, placing the mixture obtained after ultrasonic dispersion in S2 in a vacuum environment for 20 to 40 min, then taking the mixture out and injecting the mixture into a mold, placing the mold and the mixed colloid into an electromagnetic induction heater, placing the electromagnetic induction heater in a magnetic field environment with a magnetic field intensity of 1 to 1.5 mT for 2 to 3 h, cooling and then taking them out to obtain the cured epoxy resin.

公开(公告)号：US11987695B2

公开(公告)日：2024-05-21

申请号：US17611687

申请日：2020-04-08

Applicant: SUMITOMO BAKELITE CO., LTD.

Inventor： Masato Yoshida ,  Wakana Nobe ,  Kensuke Notsu

IPC: C08L63/00 ,  B29C43/00 ,  H01F1/28 ,  H01F41/02 ,  B29K63/00 ,  B29K505/12 ,  B29K509/02 ,  B29L31/34 ,  H01F27/255

CPC classification number: C08L63/00 ,  B29C43/003 ,  H01F1/28 ,  H01F41/02 ,  B29K2063/00 ,  B29K2505/12 ,  B29K2509/02 ,  B29K2995/0008 ,  B29L2031/34 ,  C08L2205/02 ,  H01F27/255

Abstract: A resin composition for forming a magnetic member of the present invention, which is used for compression molding, includes a thermosetting resin, magnetic particles, and non-magnetic particles having a lower specific gravity and a smaller cumulative 50% particle diameter D50 than the magnetic particles, in which the resin composition for forming a magnetic member is solid at 25° C.

公开(公告)号：US20180122570A1

公开(公告)日：2018-05-03

申请号：US15796041

申请日：2017-10-27

Applicant: UT-Battelle, LLC ,  Iowa State University Research Foundation, Inc. ,  Magnet Applications Inc.

Inventor： Ling LI ,  Mariappan Parans PARANTHAMAN ,  Vlastimil KUNC ,  Brian K. POST ,  Orlando RIOS ,  Robert H. FREDETTE ,  John ORMEROD ,  Cajetan Ikenna NLEBEDIM ,  Thomas LOGRASSO

IPC: H01F41/02 ,  H01F1/057 ,  B29C64/118 ,  B33Y10/00

CPC classification number: H01F41/0253 ,  B29C64/106 ,  B29C64/118 ,  B29K2063/00 ,  B29K2505/12 ,  B29K2507/04 ,  B29K2995/0008 ,  B33Y10/00 ,  B33Y70/00 ,  H01F1/057 ,  H01F1/0578

Abstract: A method for producing a bonded permanent magnet by additive manufacturing, comprising: (i) incorporating components of a solid precursor material into at least one deposition head of at least one multi-axis robotic arm of a big area additive manufacturing (BAAM) system, the components of the solid precursor material comprising a thermoplastic polymer and hard magnetic powder; said deposition head performs melting, compounding, and extruding functions; and said BAAM system has an unbounded open-air build space; and (ii) depositing an extrudate of said solid precursor material layer-by-layer from said deposition head until an object constructed of said extrudate is formed, and allowing the extrudate to cool and harden after each deposition, to produce the bonded permanent magnet. The resulting bonded permanent magnet and articles made thereof are also described.

公开(公告)号：US20140373890A1

公开(公告)日：2014-12-25

申请号：US14313346

申请日：2014-06-24

Applicant: Empire Technology Development LLC

Inventor： Arockiadoss THEVASAHAYAM

IPC: H01L37/00 ,  H01F1/01 ,  B29C39/00 ,  H01F1/42

CPC classification number: H01L37/00 ,  B29C39/003 ,  B29K2029/04 ,  B29K2105/162 ,  B29K2505/12 ,  B29K2995/0008 ,  F25B21/02 ,  H01F1/0063

Abstract: Thermoelectric cooling devices and methods for producing and using the devices are disclosed, wherein the cooling devices include a polymer composite of a polymer and nanoparticles of at least one paramagnetic material. A source for producing an electric field within the polymer composite produces a corresponding heat transfer from one surface of the composite to the other.

Abstract translation: 公开了用于制造和使用该装置的热电冷却装置和方法，其中冷却装置包括聚合物和至少一种顺磁材料的纳米颗粒的聚合物复合物。 用于在聚合物复合材料内产生电场的源产生从复合材料的一个表面到另一表面的相应热传递。

公开(公告)号：US20140227541A1

公开(公告)日：2014-08-14

申请号：US14255416

申请日：2014-04-17

Applicant: HITACHI CHEMICAL COMPANY, LTD.

Inventor： Mitsuo UNNO ,  Manabu Ono ,  Takashi Kikudome

IPC: F16D69/02

CPC classification number: F16D69/026 ,  B29C70/78 ,  B29K2401/00 ,  B29K2427/18 ,  B29K2505/08 ,  B29K2505/12 ,  B29K2509/02 ,  B29K2511/00 ,  B29K2705/00 ,  B29K2995/0016 ,  B29L2031/16 ,  C08L61/04 ,  F16D69/028 ,  F16D2069/002 ,  F16D2200/0069 ,  F16D2200/0086 ,  Y10T428/12035 ,  Y10T428/12951 ,  Y10T428/31703

Abstract: Provided is a friction material composition comprising: a binder; a fibrous base material; an abrasive material; an inorganic filler; and an organic filler, wherein the friction material composition further comprises: at least one selected from the group consisting of zinc, a cellulose fiber as the fibrous base materials and a flame retardant fiber as the fibrous base materials; an iron-based fiber as the fibrous base material in an specified amount; and an inorganic abrasive material having a Mohs hardness of 8 or higher and a particle size of 1 μm or larger as the abrasive material in an amount of 1 wt % or less. The present invention can provide a friction material composition which is less destructive to facing materials compared to conventional products, which has a high friction coefficient upon braking when used in repeated braking during high-speed traveling, and which is capable of suppressing pad wear and uneven pad wear, in the case that the friction material composition is formed into a brake pad for passenger cars. The present invention can also provide a friction material and a friction member using this friction material composition.

Abstract translation: 提供了一种摩擦材料组合物，其包含：粘合剂; 纤维基材; 磨料; 无机填料; 和有机填料，其中所述摩擦材料组合物还包含：选自锌，作为纤维基材的纤维素纤维和作为纤维基材的阻燃纤维的至少一种; 铁基纤维作为特定量的纤维基材; 以及Mohs硬度为8以上，粒径为1μm以上的无机研磨材料为1重量％以下的研磨材料。 本发明可以提供一种摩擦材料组合物，与传统产品相比，其在面对材料方面的破坏性较差，在常规产品中，当在高速行驶中用于重复制动时制动时具有高的摩擦系数，并且能够抑制垫磨损和不均匀 在摩擦材料组合物形成乘用车用刹车片的情况下，垫磨损。 本发明还可以提供使用该摩擦材料组合物的摩擦材料和摩擦构件。

公开(公告)号：US20240269929A1

公开(公告)日：2024-08-15

申请号：US18628690

申请日：2024-04-06

Applicant: uppolluX GmbH & Co. KG

Inventor： Daniel Baumann

IPC: B29C64/264 ,  B29C64/124 ,  B29C64/393 ,  B29K105/16 ,  B29K505/12

CPC classification number: B29C64/264 ,  B29C64/124 ,  B29C64/393 ,  B29C2791/004 ,  B29K2105/162 ,  B29K2505/12 ,  B29K2995/0008

Abstract: A device and method for processing a 3D polymer structure with a paramagnetic substance distributed homogeneously in the material of the 3D polymer structure is disclosed. A magnetic field generator generates a static magnetic field in a working zone of the device. Gradient coils for generating magnetic gradient fields in at least all three spatial directions x, y, z, where the paramagnetic substance can be spatially encoded in a defined voxel V of the 3D polymer structure. An RF field generator irradiates RF radiation into the working zone. A control unit controls the RF field generator in such a way that the spatially encoded paramagnetic substance in the voxel V can be excited by a field frequency of the RF radiation which is tuned to the paramagnetic substance, in order to destroy or decompose the 3D polymer structure solely in the defined voxel V.

公开(公告)号：US11643754B2

公开(公告)日：2023-05-09

申请号：US16750514

申请日：2020-01-23

Applicant: Stratasys, Inc.

Inventor： Christopher Scott Graley ,  Christine Lawrence Sumerel ,  James E. Orrock

IPC: D01F8/10 ,  B29C64/118 ,  D01F1/10 ,  D01F8/08 ,  B33Y80/00 ,  B33Y70/00 ,  D01F8/04 ,  B33Y70/10 ,  B29L9/00 ,  B29K33/00 ,  B29K505/12 ,  B29C48/07 ,  B29C48/16 ,  B29C48/00 ,  B29C48/154 ,  B29K305/00 ,  B29K309/02 ,  B29K307/04

CPC classification number: D01F8/10 ,  B29C64/118 ,  B33Y70/10 ,  B33Y80/00 ,  D01F1/10 ,  D01F8/04 ,  D01F8/08 ,  B29C48/0021 ,  B29C48/07 ,  B29C48/154 ,  B29C48/16 ,  B29K2033/08 ,  B29K2305/00 ,  B29K2307/04 ,  B29K2309/02 ,  B29K2505/12 ,  B29L2009/00 ,  Y10T428/2913 ,  Y10T428/2927 ,  Y10T428/2929 ,  Y10T428/2938 ,  Y10T428/2967

Abstract: A consumable filament for use in an extrusion-based additive manufacturing system, where the consumable filament comprises a core portion of a matrix of a first base polymer and particles dispersed within the matrix, and a shell portion comprising a same or a different base polymer. The consumable filament is configured to be melted and extruded to form roads of a plurality of solidified layers of a three-dimensional part, and where the roads at least partially retain cross-sectional profiles corresponding to the core portion and the shell portion of the consumable filament and retain the particles within the roads of the printed part and do not penetrate the outer surface of the shell portion.

公开(公告)号：US20180231397A1

公开(公告)日：2018-08-16

申请号：US15952938

申请日：2018-04-13

Applicant: NAKANISHI METAL WORKS CO., LTD.

Inventor： Osamu FUKUDA

IPC: G01D5/20 ,  G01P3/44 ,  B29K105/16 ,  B29K63/00 ,  F16C41/00 ,  B29K505/12 ,  B29C45/14 ,  B29K77/00 ,  B29L31/00 ,  B29K81/00

CPC classification number: G01D5/20 ,  B29C45/14311 ,  B29C45/1459 ,  B29K2063/00 ,  B29K2077/00 ,  B29K2081/04 ,  B29K2105/16 ,  B29K2505/12 ,  B29K2995/0008 ,  B29L2031/752 ,  F16C19/186 ,  F16C33/723 ,  F16C41/007 ,  F16C2326/02 ,  G01P3/443 ,  Y10T428/218

Abstract: The present invention is intended to provide an annular insert molded article that suppresses contamination of a metal mold and generation of foreign matter without increase in material costs for an adhesive or contamination of a transfer jig, and has a high adhesion strength so that, when the annular insert molded article is attached to a rotating body, the adhesive does not peel off from the insert or remain as foreign matter in the rotating body, and a manufacturing method thereof.An annular insert molded article 1 is manufactured by injection molding in a state where a thermoset resin adhesive A is applied to a joining surface of an annular insert 2 attachable to a rotating body to an annular plastic 3 and then the annular insert 2 and the annular plastic 3 are placed in a metal mold, wherein the range of the adhesive A applied to the annular insert 2 is a range not going beyond boundaries B1 and B2 with the annular plastic 3 by more than 3 mm, and the range does not include a portion C of the annular insert 2 to be fitted with the rotating body.

公开(公告)号：US20170120326A1

公开(公告)日：2017-05-04

申请号：US15369152

申请日：2016-12-05

Applicant: Tundra Composites, LLC

Inventor： Kurt Heikkila

IPC: B22F1/00 ,  B33Y70/00 ,  B33Y10/00 ,  B22F3/22 ,  B22F3/105

CPC classification number: B22F5/12 ,  B22F1/004 ,  B22F1/0048 ,  B22F1/0051 ,  B22F1/0059 ,  B22F1/0062 ,  B22F1/0074 ,  B22F3/004 ,  B22F3/008 ,  B22F3/1021 ,  B22F3/1055 ,  B22F3/16 ,  B22F3/20 ,  B22F3/225 ,  B22F2201/01 ,  B22F2302/45 ,  B22F2304/10 ,  B22F2998/10 ,  B28B1/001 ,  B29C48/022 ,  B29C48/05 ,  B29C48/155 ,  B29C48/86 ,  B29C48/92 ,  B29C64/106 ,  B29C2948/92704 ,  B29K2023/065 ,  B29K2505/12 ,  B33Y10/00 ,  B33Y70/00 ,  C22C32/0094 ,  D01F1/10 ,  D01F6/04 ,  D01F6/46 ,  D01F9/08 ,  D10B2321/02 ,  D10B2321/021 ,  H01F1/28 ,  Y02P10/295 ,  Y10T428/2927

Abstract: Disclosed are interfacially modified particulate and polymer composite material for use in injection molding processes, such as metal injection molding and additive process such as 3D printing. The composite material is uniquely adapted for powder metallurgy processes. Improved products are provided under process conditions through surface modified powders that are produced by extrusion, injection molding, additive processes such as 3D printing, Press and Sinter, or rapid prototyping.