公开(公告)号：US20240327957A1

公开(公告)日：2024-10-03

申请号：US18619231

申请日：2024-03-28

Applicant: WUHAN UNIVERSITY OF SCIENCE AND TECHNOLOGY ,  BAND (FOSHAN) METALLIC COMPOSITE MATERIALS CO., LTD. ,  SINO-ENERGY HUAYUAN FLOATING WIND INSTITUTE

Inventor： Kaiming WU

IPC: C22C30/00 ,  B22D7/06 ,  C22C1/04

CPC classification number: C22C30/00 ,  B22D7/06 ,  C22C1/04

Abstract: A La-element micro-alloyed AlCrFeNiTi bulk alloy with high corrosion resistance and wear resistance and a preparation method therefor and applications thereof are provided. The alloy includes the following chemical components in corresponding percentages: 2.05 wt % to 2.15 wt % of Al, 20.50 wt % to 20.65 wt % of Cr, 34.50 wt % to 35.54 wt % of Ni, 18.80 wt % to 19.16 wt % of Ti, 1.05 wt % to 1.15 wt % of La, and the balance of Fe and inevitable impurities, wherein the chemical components need to meet the following three relations at the same time: (1) 18.57≤Fe/La≤22.00; (2) 6.47≤Fe/(La+Al)≤7.45; and (3) 1.05≤Fe/(La+Ti)≤1.16. Compared with AISI 310S stainless steel, the alloy is improved by 280% to 290% in hardness, reduced by 4% to 7% in friction coefficient, and reduced by 17% to 34% in wear amount, increased by 73% to 77% in self-corrosion potential, and decreased by 96% in corrosion current density on average.

公开(公告)号：US12106949B2

公开(公告)日：2024-10-01

申请号：US17598473

申请日：2019-09-20

Applicant: JX Nippon Mining & Metals Corporation

Inventor： Yuki Furuya

IPC: H01J37/34 ,  B22F3/10 ,  C22C5/04 ,  C22C19/07 ,  C22C30/00 ,  C22C32/00 ,  C23C14/34

CPC classification number: H01J37/3429 ,  B22F3/10 ,  C22C5/04 ,  C22C19/07 ,  C22C30/00 ,  C22C32/0015 ,  C23C14/3414 ,  B22F2301/15 ,  B22F2301/25 ,  C22C2202/02

Abstract: Provided is a sputtering target capable of reducing generation of particles, and a method for producing the same. The sputtering target includes: 10 mol % or more and 85 mol % or less of Co, 0 mol % or more and 47 mol % or less of Pt, and 0 mol % or more and 47 mol % or less of Cr, as metal components; and at least B6O as an oxide component.

公开(公告)号：US20240309496A1

公开(公告)日：2024-09-19

申请号：US18670900

申请日：2024-05-22

Applicant: NORTHWESTERN UNIVERSITY

Inventor： Chuan Liu ,  Gregory B. Olson

IPC: C22C30/00 ,  C22C19/03 ,  C22F1/00 ,  C22F1/10 ,  C22F1/16

CPC classification number: C22C30/00 ,  C22F1/002 ,  C22F1/006 ,  C22F1/10 ,  C22F1/16 ,  C22C19/03

Abstract: The invention relates to a method for producing a precipitation-strengthened shape memory alloy (SMA), comprising providing a composition designed according to property objectives of the precipitation-strengthened SMA, wherein the property objectives are design specifications of the precipitation-strengthened SMA; performing homogenization and solution treatment of the composition at a first temperature for a first period of time followed by water quenching to form an ingot; and aging treatment of the ingot at a second temperature for a second period of time followed by water quenching to form the precipitation-strengthened SMA.

公开(公告)号：US20240254599A1

公开(公告)日：2024-08-01

申请号：US17926993

申请日：2022-09-30

Applicant: Institute of New Materials, Guangdong Academy of Sciences

Inventor： Xingchen Yan ,  Cheng Chang ,  Bingwen Lu ,  Changguang Deng ,  Min Liu

IPC: C22C30/00 ,  B22F9/10 ,  B23K26/34 ,  B23K35/30 ,  B23K103/04

CPC classification number: C22C30/00 ,  B22F9/10 ,  B23K26/34 ,  B23K35/3086 ,  B23K2103/04

Abstract: Disclosed are a high-entropy alloy (HEA) coating and a preparation method and use thereof. Laser cladding is conducted with an HEA powder to obtain the HEA coating, where the HEA is a FeCoCrNiAl0.5Ti0.5 alloy, and the HEA includes the following chemical components in atomic percentage: Al: 10.01% to 12.30%, Co: 18.1% to 22.5%, Cr: 18.05% to 20.12%, Fe: 18.77% to 21.02%, Ni: 19.21% to 20.99%, and Ti: 8.43% to 11.5%. The HEA material with high hardness and wear resistance provided by the present disclosure is suitable for laser cladding of a surface of a precision mold, an offshore component, or a drilling rod. A powder is prepared from the above alloy components and then prepared into a corresponding HEA coating with high strength, high hardness, and prominent wear resistance through laser cladding. The material has prominent weldability and is a special nickel-based HEA material suitable for laser additive manufacturing.

公开(公告)号：US20240229289A1

公开(公告)日：2024-07-11

申请号：US18505714

申请日：2023-11-09

Applicant: Abbott Cardiovascular Systems, Inc.

Inventor： Donal F. Manley ,  Andrew J. Lindseth ,  Alan Hughes ,  Brenda M. Foley

IPC: C25F3/02 ,  C22C30/00 ,  C25F3/22

CPC classification number: C25F3/02 ,  C22C30/00 ,  C25F3/22

Abstract: A process for electrochemical mass removal and/or electropolishing a stent formed from a cobalt-chromium-tungsten-platinum alloy. The alloy may also comprise nickel (e.g., at about 10% by weight), where no other elements are present in an amount over 3% by weight. The process includes positioning the stent in an electrolyte solution in an electropolishing cell, wherein the electrolyte includes each of H2SO4, HCl, and H3PO4, e.g., in a volumetric ratio (as prepared) of about 6:1:1, wherein the electrolyte further comprises ethylene glycol. The metallic body is electrochemically processed in the electrolyte solution in the electropolishing cell, wherein the mass removal and electropolishing includes application of an alternating current with a forward:reverse current ratio of at least 3:1 (e.g., from 3:1 to 5:1). Voltage may be allowed to float, e.g., within a range of 1 to 6 volts. Superficially similar processes using DC, other AC settings, or without ethylene glycol were ineffective.

公开(公告)号：US12000032B2

公开(公告)日：2024-06-04

申请号：US17251935

申请日：2020-06-04

Applicant: JIANGSU UNIVERSITY

Inventor： Rui Luo ,  Zhizhong Yuan ,  Xiaonong Cheng ,  Pei Gao ,  Leli Chen ,  Tian Liu

IPC: C22F1/16 ,  B21C37/06 ,  C21D1/26 ,  C21D8/02 ,  C21D8/10 ,  C21D9/08 ,  C22C30/00

CPC classification number: C22F1/16 ,  B21C37/06 ,  C21D1/26 ,  C21D8/0236 ,  C21D8/105 ,  C21D9/08 ,  C22C30/00

Abstract: A superalloy seamless pipe and a preparation method thereof are provided. The superalloy seamless pipe comprises the following components in percentages by weight: C: 0.01-0.06%, Si: 0.40-1.00%, Mn: 0.30-1.00%, P≤0.025%, S≤0.020%, Cr: 15.00-17.00%, Ni: 44.00-46.00%, Al: 2.90-3.90%, Ce: 0.01-0.03%, Ti: 0.10-0.30%, N: 0.03-0.08%, and the balance of Fe and inevitable impurities.

公开(公告)号：US11975370B2

公开(公告)日：2024-05-07

申请号：US17311241

申请日：2020-10-23

Applicant: Taiyuan University of Technology

Inventor： Jianchao Han ,  Yi Jia ,  Tao Wang ,  Zhongkai Ren ,  Yuanming Liu ,  Dongping He ,  Sha Li ,  Miao Guo

IPC: B21B1/38 ,  B21B3/00 ,  B21B15/00 ,  B22D7/00 ,  C22C14/00 ,  C22C30/00 ,  C22F1/18

CPC classification number: B21B1/38 ,  B21B3/00 ,  B21B15/0007 ,  B21B15/0035 ,  B22D7/005 ,  C22C14/00 ,  C22C30/00 ,  C22F1/183 ,  B21B2001/386 ,  B21B2003/001

Abstract: The present disclosure provides a pulse current assisted uncanned rolling method for titanium-TiAl composite plates, including the following specific steps: 1. preparing titanium alloy sheets; 2. preparing TiAl alloy sheets; 3. uncanned lay-up; 4. pulse current assisted hot-rolling; 5. separation and subsequent processing, thus getting the titanium-TiAl composite plates. The composite plates are of good quality on the surface without oxide layer shedding, no cracks at the edges and the ends, with uniform and fine microstructures, good bonding interface and excellent mechanical properties.

公开(公告)号：US20240133004A1

公开(公告)日：2024-04-25

申请号：US18547600

申请日：2021-02-24

Applicant: Kevin Laws ,  Patrick Lars Joseph Conway ,  Lori Cheryl Bassman ,  Jackson Baker ,  Catherine Holland Frank ,  Douglas Anderson Raigosa ,  Stephanie Blankley ,  Natalie Rachel Krieger

Inventor： Kevin Laws ,  Patrick Lars Joseph Conway ,  Lori Cheryl Bassman ,  Jackson Baker ,  Catherine Holland Frank ,  Douglas Anderson Raigosa ,  Stephanie Blankley ,  Natalie Rachel Krieger

IPC: C22C38/38 ,  C21D1/18 ,  C21D1/74 ,  C21D8/02 ,  C21D9/52 ,  C22C1/02 ,  C22C30/00 ,  C22C33/04 ,  C22C38/06 ,  C22C38/26 ,  C22C38/28 ,  C22F1/00 ,  C22F1/16

CPC classification number: C22C38/38 ,  C21D1/18 ,  C21D1/74 ,  C21D8/0205 ,  C21D8/0226 ,  C21D8/0236 ,  C21D8/0263 ,  C21D9/52 ,  C22C1/02 ,  C22C30/00 ,  C22C33/04 ,  C22C38/06 ,  C22C38/26 ,  C22C38/28 ,  C22F1/002 ,  C22F1/16

Abstract: The present disclosure relates generally to alloys, and in particular, to iron alloys.

公开(公告)号：US11919793B2

公开(公告)日：2024-03-05

申请号：US17338498

申请日：2021-06-03

Applicant: CANON KABUSHIKI KAISHA

Inventor： Seiichi Hata ,  Satoko Midorikawa ,  Hirotaka Fukushima

IPC: C03B11/08 ,  C03B40/00 ,  C22C5/04 ,  C22C27/02 ,  C22C30/00 ,  C22C45/00 ,  C22C45/10

CPC classification number: C03B11/086 ,  C03B40/00 ,  C22C5/04 ,  C22C27/02 ,  C22C30/00 ,  C22C45/00 ,  C22C45/10 ,  C03B2215/03 ,  C03B2215/12 ,  C03B2215/16 ,  C03B2215/31 ,  C03B2215/32 ,  C03B2215/34 ,  Y02P40/57

Abstract: An amorphous alloy contains Ni and Nb and has a composition including at least one of: a composition containing Nb with a content in the range of 35.6 atomic % to 75.1 atomic %, Ir with a content in the range of 7.2 atomic % to 52.3 atomic %, and Ni with a content in the range of 4.0 atomic % to 48.5 atomic %; a composition containing Nb with a content in the range of 19.6 atomic % to 80.9 atomic %, Re with a content in the range of 7.4 atomic % to 59.2 atomic %, and Ni with a content in the range of 4.1 atomic % to 56.9 atomic %; and a composition containing Nb with a content in the range of 7.5 atomic % to 52.9 atomic %, W with a content in the range of 16.4 atomic % to 47.0 atomic %, and Ni with a content in the range of 22.0 atomic % to 53.3 atomic %.

公开(公告)号：US20240051265A1

公开(公告)日：2024-02-15

申请号：US18373451

申请日：2023-09-27

Applicant: POSCO CO., LTD

Inventor： Seong-Woo KIM ,  Jin-Keun OH ,  Yeol-Rae CHO

IPC: B32B15/01 ,  C22C38/00 ,  C22C38/02 ,  C22C38/04 ,  C22C38/06 ,  C22C38/28 ,  C22C38/32 ,  C23C2/12 ,  C23C2/28 ,  B21D22/02 ,  C21D9/46 ,  C22F1/00 ,  C22F1/04 ,  C21D6/00 ,  C23C2/40 ,  C23F17/00 ,  B21D35/00 ,  C23C26/00 ,  C23C28/02 ,  C23C30/00 ,  C23C28/00 ,  B32B15/18 ,  C23C2/04 ,  B32B15/04 ,  C23C2/26 ,  C23C2/06 ,  C22C30/00 ,  C22C38/14 ,  C22C38/48 ,  C22C38/40 ,  C22C38/18 ,  C22C38/42 ,  C22C38/44 ,  C22C38/08 ,  C22C38/16 ,  C22C38/24 ,  C22C21/00 ,  C22C38/38 ,  C22C38/46 ,  C22C38/20 ,  C22C38/26 ,  C22C38/22 ,  C22C38/58 ,  C22C38/12 ,  C22C38/50 ,  C22C38/54 ,  B21D37/16 ,  B32B5/20 ,  B32B5/18 ,  C21D9/52 ,  C21D1/26 ,  C22C38/60

CPC classification number: B32B15/012 ,  C22C38/001 ,  C22C38/002 ,  C22C38/02 ,  C22C38/04 ,  C22C38/06 ,  C22C38/28 ,  C22C38/32 ,  C23C2/12 ,  C23C2/28 ,  B21D22/02 ,  C21D9/46 ,  C22F1/002 ,  C22F1/04 ,  C21D6/005 ,  C21D6/008 ,  C23C2/40 ,  C23F17/00 ,  B21D35/00 ,  C23C26/00 ,  B21D22/022 ,  B21D35/005 ,  B32B15/011 ,  C23C28/023 ,  C23C30/00 ,  C23C28/322 ,  C23C28/321 ,  B32B15/18 ,  C23C2/04 ,  B32B15/043 ,  B32B15/01 ,  B32B15/013 ,  C23C2/26 ,  B32B15/04 ,  C23C2/06 ,  C23C30/005 ,  C22C30/00 ,  C22C38/14 ,  C22C38/48 ,  C22C38/40 ,  C22C38/18 ,  C22C38/42 ,  C22C38/44 ,  C22C38/08 ,  C22C38/16 ,  C22C38/24 ,  C22C21/00 ,  C22C38/38 ,  C22C38/46 ,  C22C38/20 ,  C22C38/26 ,  C22C38/22 ,  C22C38/58 ,  C22C38/12 ,  C22C38/50 ,  C22C38/54 ,  B21D37/16 ,  B32B5/20 ,  B32B5/18 ,  C23C2/29 ,  C21D9/52 ,  C21D1/26 ,  C22C38/008 ,  C22C38/60 ,  Y10T428/12757 ,  Y10T428/12799 ,  Y10T428/12979 ,  Y10T428/12993 ,  Y10T428/12958 ,  Y10T428/12972 ,  Y10T428/12951 ,  Y10T428/12479

Abstract: Provided is a steel sheet for a hot press formed member having excellent resistance to hydrogen delayed fracture, and a method for manufacturing the same. A steel sheet for a hot press formed member comprises: a base steel sheet; an aluminum alloy plating layer on a surface of the base steel sheet; and an oxide layer which is formed on a surface of the plating layer and has a thickness of 0.05 μm or more.