公开(公告)号：US10527352B2

公开(公告)日：2020-01-07

申请号：US16058543

申请日：2018-08-08

Applicant: HATCH LTD.

Inventor： Dustin Alexander Vickress ,  Ian Archibald Cameron ,  David Henry Rudge ,  Andriy Ponomar ,  Volodymyr Ponomar ,  Maciej Urban Jastrzebski ,  John Andrew Ferguson Shaw

IPC: F27D1/00 ,  F27D1/06 ,  F27D1/08 ,  F27D1/12 ,  F27B1/24 ,  F27D9/00

Abstract: An abrasion-resistant material for the working face of a metallurgical furnace cooling element such as a stave cooler or a tuyere cooler having a body comprised of a first metal. The abrasion-resistant material comprises a macro-composite material including abrasion-resistant particles which are arranged in a substantially repeating, engineered configuration infiltrated with a matrix of a second metal, the particles having a hardness greater than that of the second metal. A cooling element for a metallurgical furnace has a body comprised of the first metal, the body having a facing layer comprising the abrasion-resistant material. A method comprises: positioning the engineered configuration of abrasion-resistant particles in a mold cavity, the engineered configuration located in an area of the mold cavity to define the facing layer; and introducing molten metal into the cavity, the molten metal comprising the first metal of the cooling element body.

公开(公告)号：US20180347905A1

公开(公告)日：2018-12-06

申请号：US16058543

申请日：2018-08-08

Applicant: HATCH LTD.

Inventor： Maciej Urban Jastrzebski ,  John Andrew Ferguson Shaw ,  Ian Archibald Cameron ,  David Henry Rudge ,  Andriy Ponomar ,  Volodymyr Ponomar ,  Dustin Alexander Vickress

IPC: F27D1/00 ,  F27D1/06 ,  F27D1/08 ,  F27D1/12 ,  F27B1/24

Abstract: An abrasion-resistant material for the working face of a metallurgical furnace cooling element such as a stave cooler or a tuyere cooler having a body comprised of a first metal. The abrasion-resistant material comprises a macro-composite material including abrasion-resistant particles which are arranged in a substantially repeating, engineered configuration infiltrated with a matrix of a second metal, the particles having a hardness greater than that of the second metal. A cooling element for a metallurgical furnace has a body comprised of the first metal, the body having a facing layer comprising the abrasion-resistant material. A method comprises: positioning the engineered configuration of abrasion-resistant particles in a mold cavity, the engineered configuration located in an area of the mold cavity to define the facing layer; and introducing molten metal into the cavity, the molten metal comprising the first metal of the cooling element body.

公开(公告)号：US10259084B2

公开(公告)日：2019-04-16

申请号：US15027912

申请日：2014-10-08

Applicant: HATCH LTD.

Inventor： Robert J. Veenstra ,  David Henry Rudge ,  Maciej Urban Jastrzebski ,  John Andrew Ferguson Shaw

IPC: B23P6/04 ,  F27D1/00 ,  F27D9/00 ,  F27B14/08 ,  C21B7/10 ,  C21C5/46

Abstract: Supplementary cooling elements in addition to a primary cooling element of a furnace. The supplementary cooling elements, with two or more components, may be inserted from the outside of the furnace into holes that pass through and the primary cooling element such that the cooling elements protrude beyond the inner surface of the primary cooling element. An inner one of the components of the supplementary cooling element may be received by an outer one of the components in a manner that forces the outer component into a thermally conductive pressure connection with the primary cooling element.

公开(公告)号：US20160250726A1

公开(公告)日：2016-09-01

申请号：US15027912

申请日：2014-10-08

Applicant: HATCH LTD.

Inventor： John Andrew, Ferguson Shaw ,  Maciej Urban Jastrzebski ,  Robert J. Veenstra ,  David Henry Rudge

IPC: B23P6/04 ,  F27D1/00 ,  F27D9/00

CPC classification number: B23P6/04 ,  C21B7/106 ,  C21C5/4646 ,  F27B14/08 ,  F27B2014/0837 ,  F27D1/0003 ,  F27D9/00 ,  F27D2001/0046 ,  F27D2009/0013 ,  F27D2009/0018 ,  F27D2009/0032 ,  F27D2009/0043 ,  F27D2009/0048 ,  F27D2009/0051 ,  F27D2009/0062

Abstract: It is proposed herein to add supplementary cooling elements to a primary cooling element of a furnace. The supplementary cooling elements, with two or more components, may be inserted from the outside of the furnace into holes that pass through and the primary cooling element such that the cooling elements protrude beyond the inner surface of the primary cooling element. An inner one of the components of the supplementary cooling element may be received by an outer one of the components in a manner that forces the outer component into a thermally conductive pressure connection with the primary cooling element.

Abstract translation: 这里提出了向炉的主冷却元件添加辅助冷却元件。 具有两个或更多个部件的附加冷却元件可以从炉的外部插入通过的孔和主冷却元件，使得冷却元件突出超过主冷却元件的内表面。 辅助冷却元件的内部部件之一可以由外部部件接收，其方式是迫使外部部件与主冷却元件形成热传导的压力连接。