公开(公告)号：US20130340897A1

公开(公告)日：2013-12-26

申请号：US13532233

申请日：2012-06-25

Applicant: QUOC TRAN PHAM ,  Theodore A. Waniuk

Inventor： QUOC TRAN PHAM ,  Theodore A. Waniuk

IPC: C22C45/00

CPC classification number: C22C1/02

Abstract: Disclosed is an improved bulk metallic glass alloy and methods of making the alloy in which the alloy has the structure ZraNbbCucNidAle, wherein a-e represent the atomic percentage of each respective element, and wherein b/a is less than about 0.040, and c/d is less than 1.15. The bulk metallic glass alloy has improved thermal stability and an increased super cooled liquid region rendering it capable of being thermoplastically formed into a variety of shapes and sizes.

Abstract translation: 公开了一种改进的块状金属玻璃合金及其制造合金的方法，其中合金具有结构ZraNbbCucNidAle，其中ae表示各元素的原子百分比，其中b / a小于约0.040，c / d为 小于1.15。 本体金属玻璃合金具有改善的热稳定性和增加的超冷却液体区域，使其能够被热塑性地形成为各种形状和尺寸。

公开(公告)号：US20130309121A1

公开(公告)日：2013-11-21

申请号：US13473210

申请日：2012-05-16

Applicant: Christopher D. Prest ,  Joseph C. Poole ,  Joseph Stevick ,  Theodore Andrew Waniuk ,  Quoc Tran Pham

Inventor： Christopher D. Prest ,  Joseph C. Poole ,  Joseph Stevick ,  Theodore Andrew Waniuk ,  Quoc Tran Pham

IPC: B22F7/02 ,  B22D23/06 ,  B23K13/01 ,  B22D25/06 ,  B23K26/20 ,  B23K15/00 ,  B23K31/02 ,  B22D27/02

CPC classification number: C22C33/003 ,  B22F3/1055 ,  B22F9/002 ,  B22F2003/1056 ,  B32B15/01 ,  B33Y10/00 ,  C22C1/002 ,  C22C45/001 ,  C22C45/003 ,  C22C45/02 ,  C22C45/10 ,  Y02P10/295

Abstract: Described herein are methods of constructing a part using BMG layer by layer. In one embodiment, a layer of BMG powder is deposited to selected positions and then fused to a layer below by suitable methods such as laser heating or electron beam heating. The deposition and fusing are then repeated as need to construct the part layer by layer. One or more layers of non-BMG can be used as needed. In one embodiment, layers of BMG can be cut from one or more sheets of BMG to desired shapes, stacked and fused to form the part.

Abstract translation: 这里描述的是使用BMG逐层构造零件的方法。 在一个实施例中，将BMG粉末层沉积到所选择的位置，然后通过合适的方法如激光加热或电子束加热而熔融到下面的层。 然后根据需要重复沉积和熔化以逐层构造。 可以根据需要使用一个或多个非BMG层。 在一个实施例中，BMG层可以从一个或多个BMG切割成所需形状，堆叠并熔合以形成部分。

公开(公告)号：US20130037999A1

公开(公告)日：2013-02-14

申请号：US13208800

申请日：2011-08-12

Applicant: John KANG ,  Quoc Tran Pham ,  Theodore Andrew Waniuk ,  Sean Timothy O'Keeffe ,  Joseph W. Stevick

Inventor： John KANG ,  Quoc Tran Pham ,  Theodore Andrew Waniuk ,  Sean Timothy O'Keeffe ,  Joseph W. Stevick

IPC: C22B9/22 ,  B29B17/00 ,  B22D27/04 ,  C22B9/16 ,  F27B17/00

CPC classification number: F27B14/061 ,  B22D17/04 ,  B22D17/14 ,  B22D17/2038 ,  B22D17/2227 ,  F27B14/063 ,  F27B14/14 ,  F27B14/20 ,  F27B17/00 ,  F27D9/00

Abstract: Disclosed is a temperature regulated vessel, and method for using the same, having a body configured to melt meltable material received therein, and one or more temperature regulating lines within the body configured to flow a liquid therein for regulating a temperature of the meltable material received in the melting portion. The vessel has a poor or low thermally conductive material on one or more of its parts, such as on the melting portion, on exterior surfaces of the body, and/or surrounding the temperature regulating lines to increase melt temperature of the material. The melting portion can also have indentations in its surface, and low thermally conductive material can be provided in the indentations. The vessel can be used to melt amorphous alloys, for example.

Abstract translation: 公开了一种温度调节容器及其使用方法，其具有被配置为熔化容纳在其中的可熔化材料的主体以及主体内的一个或多个温度调节线，其构造成在其内流动液体以调节所接收的可熔化材料的温度 在熔化部分。 容器在其一部分上的一个或多个部分上具有差的或低导热的材料，例如在熔化部分上，在主体的外表面上和/或围绕温度调节线，以增加材料的熔化温度。 熔化部分也可以在其表面上具有凹陷，并且可以在压痕中提供低导热材料。 例如，该容器可用于熔化非晶合金。

公开(公告)号：US20120312061A1

公开(公告)日：2012-12-13

申请号：US13579855

申请日：2011-02-17

Applicant: Quoc Tran Pham ,  Theodore Andy Waniuk

Inventor： Quoc Tran Pham ,  Theodore Andy Waniuk

IPC: B21D31/00

CPC classification number: C22C1/002 ,  B22D27/04 ,  B29C49/66 ,  C22C45/00

Abstract: Provided herein include methods of molding a parison comprising an amorphous alloy and or an amorphous alloy composites, where the molding takes place within the supercooled liquid region or around the glass transition temperature of the amorphous alloy. In one embodiment, the foπning can be carried out with two fluids at different temperatures. The molded article can have a very high aspect ratio or a three-dimensional hollow shape with a desirable surface finish.

Abstract translation: 本文提供了模制包含非晶合金和/或非晶合金复合材料的型坯的方法，其中模制发生在过冷液体区域内或围绕非晶合金的玻璃化转变温度。 在一个实施方案中，可以在不同温度下用两种流体进行成型。 模制品可以具有非常高的纵横比或具有所需表面光洁度的三维中空形状。

公开(公告)号：US20120247622A1

公开(公告)日：2012-10-04

申请号：US13494804

申请日：2012-06-12

Applicant: Dennis Ogawa ,  Quoc Tran Pham ,  Atakan PEKER

Inventor： Dennis Ogawa ,  Quoc Tran Pham ,  Atakan PEKER

IPC: C22C45/04

CPC classification number: A01K83/00 ,  C22C45/00 ,  C22C45/02 ,  C22C45/10

Abstract: Mechanical hooks made of bulk-solidifying amorphous alloys, wherein the bulk-solidifying amorphous alloys provide ruggedness, durability, higher service loads, excellent resistance to chemical and environmental effects, and low-cost manufacturing are provided. In addition, methods of making such mechanical hooks from bulk-solidifying amorphous alloys are also disclosed.

Abstract translation: 机械钩由非晶态固体合金制成，其中大块固化非晶态合金提供耐久性，耐久性，较高的使用载荷，优异的耐化学性和环境效果，以及低成本的制造。 此外，还公开了从非晶合金的固体化制造这种机械钩的方法。

公开(公告)号：US10154707B2

公开(公告)日：2018-12-18

申请号：US14387046

申请日：2012-03-23

Applicant: Christopher D. Prest ,  Joseph C. Poole ,  Theodore A. Waniuk ,  Quoc Tran Pham ,  Joseph Stevick

Inventor： Christopher D. Prest ,  Joseph C. Poole ,  Theodore A. Waniuk ,  Quoc Tran Pham ,  Joseph Stevick

IPC: C22C45/10 ,  A44B13/00 ,  A44B18/00 ,  C22C1/00 ,  C22C33/00 ,  C22C45/00 ,  C22C45/02 ,  B21F1/00 ,  B21F15/00 ,  B21F45/16 ,  B22D25/02 ,  B22D25/06

Abstract: Embodiments relates to a hook side fastener having hooks and a loop side fastener having loops. The hooks and/or loops are made of bulk solidifying amorphous metal alloy. Other embodiments relate to methods of making and using the hook side and loop side fasteners.

公开(公告)号：US09955533B2

公开(公告)日：2018-04-24

申请号：US14374803

申请日：2011-09-20

Applicant: Quoc Tran Pham ,  Sean Timothy O'Keeffe ,  Joseph Stevick ,  Theodore A. Waniuk

Inventor： Quoc Tran Pham ,  Sean Timothy O'Keeffe ,  Joseph Stevick ,  Theodore A. Waniuk

IPC: H05B6/22 ,  H05B6/02 ,  H05B6/20 ,  F27B14/06 ,  F27D11/06 ,  B29C45/72 ,  F27D99/00

CPC classification number: H05B6/20 ,  B29C45/72 ,  F27B14/061 ,  F27D11/06 ,  F27D2099/0015 ,  Y02P10/253 ,  Y10T29/4998

Abstract: An induction shield is configured to substantially reduce emissions emitted from an induction heat source (e.g., coil) during use. The shield is positioned adjacent to a vessel (e.g., in an injection system) having a melting portion configured to receive meltable material to be melted therein and an induction heat source positioned adjacent the vessel configured to melt the meltable material received in the melting portion of the vessel. The shield may include a tube configuration configured to flow liquid therein to absorb heat emitted from the heat source. The tube configuration can comprise a single tube or multiple tubes. The shield can be positioned adjacent the induction source in a helical manner, for example, or at ends of the vessel. The shield can be used during melting of amorphous alloy and for forming a part.

公开(公告)号：US09758852B2

公开(公告)日：2017-09-12

申请号：US12984433

申请日：2011-01-04

Applicant: Quoc Tran Pham ,  Theodore Andy Waniuk

Inventor： Quoc Tran Pham ,  Theodore Andy Waniuk

IPC: F16J15/08 ,  C22C45/00 ,  C22C45/10 ,  H01B17/30 ,  B23K13/01 ,  B23K20/02 ,  B23K20/16 ,  B23K20/22 ,  B23K26/32 ,  C22C30/00 ,  H01L21/50 ,  H01L23/10 ,  B23K26/211 ,  B23K26/20

CPC classification number: C22C45/00 ,  B23K13/01 ,  B23K20/02 ,  B23K20/16 ,  B23K20/22 ,  B23K26/206 ,  B23K26/211 ,  B23K26/32 ,  C22C30/00 ,  C22C45/001 ,  C22C45/003 ,  C22C45/10 ,  F16J15/0806 ,  H01B17/305 ,  H01L21/50 ,  H01L23/10 ,  H01L2924/0002 ,  H01L2924/01079 ,  Y10T428/13 ,  Y10T428/24612 ,  Y10T428/31678 ,  H01L2924/00

Abstract: Provided in one embodiment is an article, comprising a first part having a first surface and a hermetic seal disposed over a portion of the first surface, wherein the hermetic seal comprises a composition that is at least partially amorphous.

公开(公告)号：US20150307967A1

公开(公告)日：2015-10-29

申请号：US14387023

申请日：2012-03-23

Applicant: Christopher D. Prest ,  Joseph C. Poole ,  Joseph Stevick ,  Theodore A. Waniuk ,  Quoc Tran Pham

Inventor： Christopher D. Prest ,  Joseph C. Poole ,  Joseph Stevick ,  Theodore A. Waniuk ,  Quoc Tran Pham

IPC: C22C1/00 ,  C22C45/00 ,  B22F3/20 ,  B22F3/02 ,  B22F3/105 ,  B22F3/14 ,  C22C1/04 ,  C22C33/00

CPC classification number: C22C1/002 ,  B22F3/02 ,  B22F3/105 ,  B22F3/1216 ,  B22F3/14 ,  B22F3/20 ,  B22F9/002 ,  B22F2003/1051 ,  B22F2998/00 ,  C22C1/04 ,  C22C33/003 ,  C22C45/00 ,  C22C45/001 ,  C22C45/003 ,  C22C45/02 ,  C22C45/10 ,  B22F3/15 ,  B22F3/087

Abstract: Described herein is a method of producing a feedstock comprising a BMG. A powder is compacted to for the feed-stock. The powder has elements of the BMG and the elements in the powder have a same weight percentage as in the BMG. Described herein is a method of producing a feedstock comprising a BMG. A powder is compacted into a sheath to for the feedstock. The powder and the sheath together have elements of the BMG and the elements in the powder have a same weight percentage as in the BMG.

Abstract translation: 本文描述了生产包含BMG的原料的方法。 将粉末压实成为原料。 该粉末具有BMG的元素，并且粉末中的元素具有与BMG中相同的重量百分比。 本文描述了生产包含BMG的原料的方法。 将粉末压实成为原料的护套。 粉末和护套一起具有BMG的元素，并且粉末中的元素具有与BMG中相同的重量百分比。

公开(公告)号：US20150306670A1

公开(公告)日：2015-10-29

申请号：US14387039

申请日：2012-03-23

Applicant: Christopher D. Prest ,  Joseph C. Poole ,  Joseph Stevick ,  Theodore A. Waniuk ,  Quoc Tran Pham

Inventor： Christopher D. Prest ,  Joseph C. Poole ,  Joseph Stevick ,  Theodore A. Waniuk ,  Quoc Tran Pham

IPC: B22F9/00 ,  B22F9/04 ,  C22C45/10 ,  C22C33/00 ,  C22C45/02 ,  C22C45/00 ,  B22F9/08 ,  C22C1/00

CPC classification number: B22F9/002 ,  B22F9/04 ,  B22F9/08 ,  B22F2998/10 ,  B22F2999/00 ,  C22B9/22 ,  C22B9/221 ,  C22C1/002 ,  C22C1/02 ,  C22C33/003 ,  C22C45/00 ,  C22C45/001 ,  C22C45/003 ,  C22C45/02 ,  C22C45/10 ,  B22F2202/05 ,  B22F2202/06 ,  B22F2202/07 ,  B22F2202/11 ,  B22F2202/13 ,  B22F2201/10 ,  B22F2201/20 ,  B22F2009/0804

Abstract: Described herein is a method of producing an alloy. The method includes pouring a stream of molten mixture of component elements of the alloy, separating the stream into discrete pieces, solidifying the discrete pieces by cooling before the discrete pieces contact any liquid or solid. Also described herein is another method of producing an alloy. This method includes pouring and solidifying a stream of molten mixture of component elements of the alloy into a rod or pulling a rod from a molten mixture of component elements of the alloy, before the rod contacts any liquid or solid, separating the rod into discrete pieces. An apparatus suitable for carrying out the methods above can include a container from which the molten stream is poured or the solid rod extends, one or more coil, conductive plates, a laser source, or an electron beam source arranged around the molten stream or the solid rod and configured to separate the molten stream or the solid rod into discrete pieces.

Abstract translation: 这里描述的是制造合金的方法。 该方法包括浇注合金组分的熔融混合物流，将流分离成分离的碎片，在离散的碎片与任何液体或固体接触之前通过冷却固化分散的碎片。 本文还描述了制造合金的另一种方法。 该方法包括在棒接触任何液体或固体之前将合金的组分元素的熔融混合物料流浇注并固化成棒或从合金的组分元素的熔融混合物中拉出棒，将棒分离成离散块 。 适用于实施上述方法的装置可以包括一个容器，熔融物料流从该容器或实心棒延伸出来，一个或多个线圈，导电板，激光源或电子束源设置在熔融流周围或 固体棒并且构造成将熔融流或实心棒分离成离散件。