公开(公告)号：US10362784B2

公开(公告)日：2019-07-30

申请号：US15639717

申请日：2017-06-30

Applicant: Timilon Technology Acquisitions LLC

Inventor： Bill Sanford ,  Brandon Walker ,  Paul S. Malchesky ,  Kyle Knappenberger ,  Calvin Jeffrey Kissick ,  Eric Steward

IPC: A01N59/06 ,  A01N59/00 ,  A61Q17/00 ,  A61Q19/10 ,  A61K8/34 ,  A61K8/19 ,  A61K8/27 ,  A61K8/29 ,  A61K8/06 ,  A01N25/22 ,  C09D5/03 ,  C09D1/00 ,  C09D5/14 ,  C09D201/00 ,  C11D1/14 ,  C11D1/72 ,  C11D1/831 ,  C11D3/12 ,  C11D1/66 ,  C11D1/00 ,  C11D3/48 ,  C11D17/00 ,  C09D7/45 ,  C09D7/62 ,  C09D7/65 ,  C09D7/63 ,  C09D7/61 ,  A01N25/10 ,  A01N25/30 ,  C11D1/74 ,  C11D3/00 ,  C11D3/20 ,  C11D3/37 ,  C11D3/382 ,  C11D3/43 ,  C11D17/06 ,  A61K8/39 ,  A61K8/46 ,  A61K8/49 ,  A61K8/81 ,  A61K8/88 ,  A61K8/90 ,  A61K8/02 ,  A61K8/04 ,  C08K3/22

Abstract: Dry mixtures and liquid formulations are provided that comprise metal oxide and/or metal hydroxide nanocrystalline particles. The dry mixtures are advantageously formulated with select surfactants to be readily solubilized and stable in liquid carriers. Additional select components are provided in preferred combinations that are capable of achieving improved biocidal and chemical agent efficacy. Notably, the inventive formulations provided herein allow for easier delivery of the formulations and increased shelf stability.

公开(公告)号：US10351718B2

公开(公告)日：2019-07-16

申请号：US15355190

申请日：2016-11-18

Applicant: AGC Inc.

Inventor： Kazuhiko Shiono ,  Keigo Matsuura ,  Hiroki Hotaka

IPC: C09D5/32 ,  G02B1/115 ,  H04N5/335 ,  G02B1/113 ,  G02B5/28 ,  C09D201/00 ,  C09B57/00 ,  C09D145/00 ,  C09D167/00 ,  C09D169/00 ,  G02B5/20 ,  G02B5/22 ,  H01L27/146 ,  C09D7/41 ,  C09B23/10 ,  C09B67/22 ,  C08K5/00 ,  C08K5/3415 ,  C08K5/3417

Abstract: An optical filter includes an absorption layer containing a near-infrared absorbing dye with an absorption characteristic in dichloromethane satisfying (i-1) to (i-3). (i-1) In an absorption spectrum of a wavelength of 400 to 800 nm, there is a maximum absorption wavelength λmax in 670 to 730 nm. (i-2) Between a maximum absorption coefficient εA of light with a wavelength of 430 to 550 nm and a maximum absorption coefficient εB of light with a wavelength of 670 to 730 nm, the following relational expression: εB/εA≥65 is established. (i-3) In a spectral transmittance curve, the difference between a wavelength λ80 with which the transmittance becomes 80% on a shorter wavelength side than the maximum absorption wavelength with the transmittance at the maximum absorption wavelength λmax set to 10% and the maximum absorption wavelength λmax is 65 nm or less.

公开(公告)号：US10337660B2

公开(公告)日：2019-07-02

申请号：US15525721

申请日：2015-10-13

Applicant: Sanoh Industrial Co., Ltd.

Inventor： Naoki Kawai ,  Takanori Kon ,  Norinobu Kusunoki ,  Akira Sugitani

IPC: F16L58/00 ,  F16L58/10 ,  B32B15/08 ,  B32B15/088 ,  B32B1/08 ,  C09D5/00 ,  C09D161/04 ,  C09D167/00 ,  C09D201/00 ,  C09D7/40 ,  C09D5/08 ,  C09D179/08 ,  C23F11/173 ,  F16L9/02 ,  C08L79/08

Abstract: Disclosed is a coated metal pipe including a metal pipe and a multi-layered coating film that covers an outer circumferential surface of the metal pipe. The multi-layered coating film includes a chemical conversion layer and a primer layer, and these layers are provided in this order from the inside. The primer layer contains polyamide imide and at least one kind of additive component selected from polyamide, a fluorine resin, a silane coupling agent, and an epoxy resin.

公开(公告)号：US10293406B2

公开(公告)日：2019-05-21

申请号：US15113717

申请日：2015-03-24

Applicant: TOYO ALUMINIUM KABUSHIKI KAISHA

Inventor： Takayuki Nakao

IPC: B22F1/00 ,  B22F9/04 ,  B22F9/08 ,  C08K3/08 ,  C09C1/62 ,  C09C1/64 ,  C09D7/40 ,  C09D101/18 ,  C09D201/00

Abstract: An object of the present invention is to provide a flaky metal pigment that is reduced in particle size. According to the flaky metal pigment of the present invention, in the case where the flaky metal pigment is measured by a flow-type particle image analyzer, P50 showing a 50% cumulative frequency of a diameter equivalent to an area circle in a number distribution is less than 0.500 μm.

公开(公告)号：US10227456B2

公开(公告)日：2019-03-12

申请号：US15509231

申请日：2015-09-09

Applicant: SEKISUI PLASTICS CO., LTD.

Inventor： Akiyoshi Kusaka ,  Kaori Kuwagaki ,  Ryosuke Harada

IPC: C08G18/10 ,  C08J3/24 ,  C09D7/40 ,  A61Q1/12 ,  A61K8/81 ,  A61Q19/00 ,  C08F2/18 ,  C08F2/44 ,  C08F290/06 ,  C08F299/06 ,  C09D201/00 ,  C08L55/00 ,  A61K8/06 ,  A61K8/87 ,  A61Q1/02 ,  C08G18/32 ,  C08G18/34 ,  C08G18/44 ,  C08G18/48 ,  C08G18/66 ,  C08G18/73 ,  C08G18/78 ,  C08G18/83 ,  C08K3/36 ,  C09D175/16 ,  C08G18/67 ,  C08G18/80

Abstract: A high-recoverability resin particles having a mean particle size of 1 to 100 μm containing a cross-linked (meth)acrylic acid ester-based resin, wherein the high-recoverability resin particles have a recovery rate of 22% or greater, and a 30% compression strength of 1.5 to 5.0 kgf/mm2.

公开(公告)号：US20190055425A1

公开(公告)日：2019-02-21

申请号：US16165238

申请日：2018-10-19

Applicant: SEKISUI PLASTICS CO., LTD.

Inventor： Toshiki TAKENAKA ,  Mayumi TAKAYAMA ,  Akiyoshi KUSAKA ,  Masaaki NAKAMURA

IPC: C09D133/12 ,  C09D201/00 ,  C08F2/44 ,  C08F220/14 ,  C09D7/61 ,  C08F2/18 ,  C09D7/40 ,  C08K3/36

Abstract: In a method for producing composite particles containing polymer particles and silica particles that adhere to the polymer particles, the composite particles are obtained by subjecting a polymerizable monomer to aqueous suspension polymerization in a presence of silica particles and a cellulose compound adsorbing onto the silica particles. The composite particles contain the polymer particles, the silica particles that adhere to surfaces of the polymer particles, and the water-soluble cellulose compound.

公开(公告)号：US10201796B2

公开(公告)日：2019-02-12

申请号：US15443656

申请日：2017-02-27

Applicant: IMMUNOLIGHT, LLC. ,  DUKE UNIVERSITY

Inventor： Frederic Avery Bourke, Jr. ,  Tuan Vo-Dinh

IPC: A61N5/00 ,  A23L3/26 ,  A61L2/00 ,  B01J19/12 ,  B01J19/08 ,  C02F1/30 ,  C02F1/72 ,  A61L2/08 ,  A61L2/10 ,  A61L2/16 ,  C08J3/28 ,  G21K5/00 ,  C02F1/32 ,  A61K41/00 ,  A61N5/06 ,  A61N5/10 ,  A23L5/30 ,  B01J23/50 ,  B01J23/52 ,  B01J31/02 ,  B01J31/22 ,  B01J35/00 ,  B01J37/00 ,  B01J37/02 ,  C09D201/00 ,  C09J5/00 ,  C09J201/00 ,  A23L2/50 ,  A23L3/28 ,  C08J3/24 ,  C08J7/18 ,  G02B5/00 ,  A61M1/36 ,  C12H1/06 ,  B82Y20/00 ,  B82Y30/00 ,  B82Y40/00

Abstract: A method and a system for producing a change in a medium disposed in an artificial container. The method places in a vicinity of the medium at least one of a plasmonics agent and an energy modulation agent. The method applies an initiation energy through the artificial container to the medium. The initiation energy interacts with the plasmonics agent or the energy modulation agent to directly or indirectly produce the change in the medium. The system includes an initiation energy source configured to apply an initiation energy to the medium to activate the plasmonics agent or the energy modulation agent.

公开(公告)号：US20190040275A1

公开(公告)日：2019-02-07

申请号：US16153580

申请日：2018-10-05

Applicant: TOYO SEIKAN GROUP HOLDINGS, LTD.

Inventor： Shinpei Okuyama ,  Shunya Nangou ,  Kota Mori ,  Naru Kawahara

IPC: C09D133/02 ,  C23C16/44 ,  C09D201/02 ,  C09D201/00 ,  C09D5/00 ,  C08J7/04 ,  C09D7/65 ,  B32B27/18 ,  B05D7/24 ,  B05D5/00 ,  C09D7/40 ,  C08L33/02

Abstract: A coating formed on a surface of a base material, the coating composition containing an ionic polymer (a), a hygroscopic agent (b) and a solvent, the hygroscopic agent (b) being a granular crosslinked product of a monovalent metal salt of a poly(meth)acrylic acid and being contained in an amount of 75 to 700 parts by mass per 100 parts by mass of the ionic polymer (a), and the coating having a haze of 5% or less and a maximum surface roughness Ra (JIS B-0601-1994) of 0.1 μm or less.

公开(公告)号：US10183479B2

公开(公告)日：2019-01-22

申请号：US15063443

申请日：2016-03-07

Applicant: The Boeing Company

Inventor： Nick S. Evans ,  Faraón Torres ,  Ryan G. Ziegler ,  Samuel F. Harrison ,  Ciro J. Grijalva, III ,  Hayden S. Osborn

IPC: B29C67/00 ,  B33Y70/00 ,  B29C69/00 ,  B29C70/28 ,  B05D1/26 ,  B05D1/34 ,  B05D3/06 ,  B05D3/12 ,  B29C35/16 ,  B29C70/16 ,  B29C70/38 ,  B29C70/54 ,  C09D5/00 ,  B29B11/00 ,  B29B11/16 ,  C09D201/00 ,  B29C47/00 ,  B29C64/106 ,  B29K105/00 ,  B33Y10/00 ,  B29L31/30 ,  B29L31/00 ,  B33Y30/00 ,  B33Y40/00 ,  B29K63/00 ,  B29K105/08 ,  B29K105/10 ,  B33Y50/02 ,  B29K101/10 ,  B29K105/12 ,  B29C35/08 ,  B29K105/06 ,  B29C64/135 ,  B29C64/129 ,  B29C64/25

Abstract: A method of additively manufacturing a composite part comprises applying a first quantity of a first part of a thermosetting resin to a first element of a non-resin component by pulling the first element through a first resin-part applicator and applying a second quantity of a second part of the thermosetting resin to a second element of the non-resin component by pulling the second element through a second resin-part applicator. The method also comprises combining the first element with the first quantity of first part and the second element with the second quantity of second part, to create a continuous flexible line. The method additionally comprises routing the continuous flexible line into a delivery guide and depositing, via the delivery guide, a segment of the continuous flexible line along a print path.

公开(公告)号：US10179446B2

公开(公告)日：2019-01-15

申请号：US15063417

申请日：2016-03-07

Applicant: The Boeing Company

Inventor： Nick S. Evans ,  Faraón Torres ,  Ryan G. Ziegler ,  Samuel F. Harrison ,  Ciro J. Grijalva, III ,  Hayden S. Osborn

IPC: B29C67/00 ,  B33Y70/00 ,  B29C69/00 ,  B29C70/28 ,  B05D1/26 ,  B05D1/34 ,  B05D3/06 ,  B05D3/12 ,  B29C35/16 ,  B29C70/16 ,  B29C70/38 ,  B29C70/54 ,  C09D5/00 ,  B29B11/00 ,  B29B11/16 ,  C09D201/00 ,  B29C47/00 ,  B29C64/106 ,  B29K105/00 ,  B33Y10/00 ,  B29L31/30 ,  B29L31/00 ,  B33Y30/00 ,  B33Y40/00 ,  B29K63/00 ,  B29K105/08 ,  B29K105/10 ,  B33Y50/02 ,  B29K101/10 ,  B29K105/12 ,  B29C35/08 ,  B29K105/06 ,  B29C64/135 ,  B29C64/129 ,  B29C64/25

Abstract: A method of additively manufacturing a composite part comprises applying a thermosetting resin to a non-resin component to create a continuous flexible line by pulling a non-resin component through a first resin-part applicator, in which a first quantity of a first part of the thermosetting resin is applied to the non-resin component, and by pulling a non-resin component through a second resin-part applicator, in which a second quantity of a second part of the thermosetting resin is applied to at least a portion of the first quantity of the first part of the thermosetting resin, applied to the non-resin component. The method further comprises routing the continuous flexible line into a delivery guide and depositing, via the delivery guide, a segment of the continuous flexible line along a print path.