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Patent Agency Ranking
公开(公告)号:US20220314543A1
公开(公告)日:2022-10-06
申请号:US17597010
申请日:2021-03-29
Inventor: Weizhi ZOU , Jian XU , Zhiyan ZHANG , Yan GAO , Xuechun LIN , Ning ZHAO
IPC: B29C64/268 , B33Y10/00 , B33Y30/00
Abstract: Provided is a 3D printing method and system using a near-infrared semiconductor laser as a heating source. The 3D printing system includes a printing spray head (4). In the 3D printing process, a laser beam is output by the near-infrared semiconductor laser to form a laser spot, which scans in an arbitrary path to cover a relevant area of a printed material for in-situ heating, thereby realizing the “asynchronous” printing mode. The near-infrared laser has higher penetration depth compared with a mid-infrared laser, so that the printing method using a near-infrared semiconductor laser as a heating source can be flexibly compatible with various printing platforms and the working process of the laser in the formed printing system can be decoupled from the 3D printing process of an article.
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公开(公告)号:US20220315673A1
公开(公告)日:2022-10-06
申请号:US17597145
申请日:2020-09-11
Inventor: Guangda ZHU , Yi HOU , Ning ZHAO , Jian XU
IPC: C08F2/48 , C08F220/06
Abstract: The present invention discloses an enhanced, self-healable or recoverable and recyclable 3D printed article and a preparation method and use thereof. By introducing a functional monomer into a 3D printing system, a self-healable or recoverable 3D printed article is prepared or the interface strength of the 3D printed article is enhanced; or by using at least one monofunctional thermoplastic photosensitive resin monomer as one of 3D printing raw materials, a recyclable 3D printed article is prepared.
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公开(公告)号:US20220315776A1
公开(公告)日:2022-10-06
申请号:US17597077
申请日:2020-09-23
Inventor: Yi HOU , Guangda ZHU , Ning ZHAO , Jian XU
IPC: C09D7/65 , C09D5/00 , C09D7/40 , C09D183/04 , C01B33/021 , B05D3/02
Abstract: The present invention discloses a self-healing or reusable article and preparation method and use thereof. The present invention discloses a combination system for preparing a self-healing coating material, comprising: (A) a low-surface-energy polymer micelle dispersion; (B) a silane coupling agent hydrolysate; and (C) a base solution. The present invention discloses a composition system for use in a reusable glass-like material or glass-like article, comprising: (i) a mixed dispersion of a silane coupling agent hydrolysate and a base solution; (ii) a low-surface-energy polymer solution; and (iii) a silane coupling agent dispersion. The self-healing or reusable article provided herein has a wide range of application prospect.
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4.发明申请公开(公告)号:US20190185596A1
公开(公告)日:2019-06-20
申请号:US16279677
申请日:2019-02-19
Inventor: Huayi LI , Qian LI , Tongbing SUN , Caizhen ZHU , Ruigang LIU , Ning ZHAO , Jian XU
IPC: C08F110/02 , B29B7/90 , B29C48/00 , B29C48/09 , B29C48/07 , B29C55/00 , B29C55/12 , D01D5/12 , D01D5/06 , D01F6/46 , C08J5/24 , C08K3/40 , C08J5/18 , C08K7/14 , C08F255/02
CPC classification number: C08F110/02 , B29B7/90 , B29C48/0018 , B29C48/022 , B29C48/07 , B29C48/09 , B29C55/005 , B29C55/12 , B29K2023/0683 , B29K2309/08 , B29L2007/002 , B29L2023/22 , C08F4/658 , C08F255/02 , C08F2500/01 , C08F2500/24 , C08F2500/26 , C08J5/18 , C08J5/24 , C08J2323/06 , C08K3/40 , C08K7/14 , C08K2201/004 , D01D5/06 , D01D5/12 , D01F6/46
Abstract: An ultra-high molecular weight, ultra-fine particle size polyethylene has a viscosity average molecular weight (Mv) greater than 1×106. The polyethylene is spherical or are sphere-like particles having a mean particle size of 10-100 μm, having a standard deviation of 2-15 μm and a bulk density of 0.1-0.3 g/mL. Using the polyethylene as a basic polyethylene, a grafted polyethylene can be obtained by means of a solid-phase grafting method; and a glass fiber-reinforced polyethylene composition comprising the polyethylene and glass fibers, and a sheet or pipe prepared therefrom; a solubilized ultra-high molecular weight, ultra-fine particle size polyethylene; and a fiber and a film prepared from the solubilized ultra-high molecular weight, ultra-fine particle size polyethylene may also be obtained. The method has simple steps, is easy to control, has a relatively low cost and a high repeatability, and can realize industrialisation.
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公开(公告)号:US20170253681A1
公开(公告)日:2017-09-07
申请号:US15507670
申请日:2015-04-24
Inventor: Heng SHEN , Jing GUO , Tang ZHU , Ning ZHAO , Jian XU , Wenhua SUN , Jinyong DONG , Chuncheng LI , Wenxin FU , Xuechun LIN , Yongmei MA
CPC classification number: C08F220/18 , B28B1/001 , B29C64/106 , B29C64/165 , B33Y10/00 , B33Y70/00 , C08F2/44 , C08F2/48 , C08F2/50 , C08F2220/1808 , C08F2220/1816 , C08F2220/1825 , C08F2220/1883 , C08J3/12 , C08J3/203 , C08K3/011 , C08K3/013 , C08K3/08 , C08F220/14 , C08F2222/1013 , C08F2222/1026 , C08F2220/185
Abstract: The present invention provides a composition for 3D printing, a process for preparing the same and an article thereof. By the solidifying method of UV irradiation, 3D printing is implemented. During said implementation, there is no need of high temperature heating, thus energy consumption is reduced, and there is no need for special solvent, thus harm to the environment is reduced. Meanwhile, the present invention uses micro-nano powder as the main material and polymer resin as adhesive, and at the same time, adds irradiation sensitizer. After electron beam irradiation, the polymer resin forms three-dimensional crosslinked network, thereby the strength, heat resistance and chemical resistance are improved after resin adhesion. Additionally, the present invention, by the addition of UV crosslinking agent, and by UV irradiation, cross-links the unsaturated resin after extrusion in 3D printing to form three-dimensional network structure, thus greatly improves the heat resistance, chemical resistance and mechanical strength of the shaping material, and makes the unsaturated resin have broader application prospects in 3D printing material.
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