| Patent application number | Description | Published |
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| 20130319090 | TESTING OF SURFACE CRYSTALLINE CONTENT IN BULK AMORPHOUS ALLOY - Provided in one embodiment is a method, comprising: forming a part comprising a bulk amorphous alloy, wherein the part comprises a sampling portion; determining a parameter related to the part by detecting by imaging on a surface of the sampling portion presence of crystals of the alloy; and evaluating the part based on the parameter. | 12-05-2013 |
| 20130333165 | FASTENER MADE OF BULK AMORPHOUS ALLOY - Embodiments relates to a fastener having a head portion and an interlock portion comprising a bulk solidifying amorphous alloy comprising a metal alloy. The fastener could further have a screw portion. Other embodiments relate to methods of making and using the fasteners. | 12-19-2013 |
| 20140007713 | MECHANICAL TESTING OF TEST PLAQUE FORMED ON AN ALLOY PART AND MECHANICAL PROOF TESTING - Disclosed are quality control methods used in fabrication processes to make bulk-solidifying amorphous alloy parts. The quality control methods include forming a test plaque together with bulk-solidifying amorphous alloy part where the test plaque is formed on the alloy part at a location having a predetermined likelihood of failure, and testing the plaque to determine the quality of the product. | 01-09-2014 |
| 20140007984 | CAST CORE INSERT OUT OF ETCHABLE MATERIAL - Provided in an embodiment is a method for molding, including: providing a molten alloy in a space between a mold cavity and an etchable block shaped to form an undercut on a part formed in the space, cooling the molten alloy to form the part with the undercut, and etching the etchable block. An undercut is a beveled edge caused by an etchant attacking an etchable block laterally and optionally vertically. The formed part can be made of a bulk amorphous alloy. In some cases, the etchable block can also be used to form at least one threaded portion in the part. | 01-09-2014 |
| 20140007985 | INDIRECT PROCESS CONDITION MONITORING - Disclosed is a method of controlling the production of a bulk-solidifying amorphous alloy by providing a set point control system, run in conjunction with a continuous smart feedback process control system that continuously monitors the processing conditions during manufacture, and continuously updates the smart feedback control system thereby enabling the control system to learn as the process is running. | 01-09-2014 |
| 20140008327 | MOVABLE JOINT THROUGH INSERT - Provided in one embodiment is a method of forming a movable joint or connection between parts that move with respect to one another, wherein at least one part is at least partially enclosed by at least one second part. The method includes positioning an etchable material over an at least one first part, molding or forming an at least one second part over at least the etchable material, and removing the etchable material. | 01-09-2014 |
| 20140008999 | BULK AMORPHOUS ALLOY PRESSURE SENSOR - Pressure sensing systems comprising bulk-solidifying amorphous alloys and pressure-sensitive switches containing bulk-solidifying amorphous alloys. The bulk-solidifying amorphous alloys are capable of repeated deformation upon application of pressure, and change their electrical resistivity upon deformation, thereby enabling measurement of the change in resistivity and consequently, measuring the deformation and amount of pressure applied. | 01-09-2014 |
| 20140009215 | TOUCH INTERFACE USING PATTERNED BULK AMORPHOUS ALLOY - Touch sensing systems comprising bulk-solidifying amorphous alloys and methods of making touch sensing arrays and electronic devices containing touch sensitive screens that include arrays containing bulk-solidifying amorphous alloys. The bulk-solidifying amorphous alloy substrates have select areas of crystalline and amorphous alloy providing for discrete areas of conductivity and resistivity. | 01-09-2014 |
| 20140012534 | NON-DESTRUCTIVE METHOD TO DETERMINE CRYSTALLINITY IN AMORPHOUS ALLOY USING SPECIFIC HEAT CAPACITY - One embodiment provides a method and apparatus for determining an unknown degree of crystallinity of a bulk-solidifying amorphous alloy specimen based on the heat capacity of the specimen. The method and apparatus make use of the different heat capacities of alloys having differing degrees of crystallinity. | 01-09-2014 |
| 20140083638 | TEMPERATURE REGULATED MELT CRUCIBLE FOR COLD CHAMBER DIE CASTING - Disclosed is a vessel for melting and casting meltable materials. The vessel may be a surface temperature regulated vessel for providing a substantially non-wetting interface with the molten materials. In one embodiment, the vessel may include one or more temperature regulating channels configured to flow a fluid therein for regulating a surface temperature of the vessel such that molten materials are substantially non-wetting at the interface with the vessel. Disclosed also includes systems and methods for melting and casting meltable materials using the vessel. | 03-27-2014 |
| 20140083640 | INJECTION COMPRESSION MOLDING OF AMORPHOUS ALLOYS - Various embodiments provide methods and apparatus for forming bulk metallic glass (BMG) articles using a mold having a stationary mold part and a movable mold part paired to form a mold cavity. A molten material can be injected to fill the mold cavity. The molten material can then be cooled into a BMG article at a desired cooling rate. While injecting and/or cooling the molten material, the movement of the movable mold part can be controlled, such that a thermal contact between the molten material and the mold can be maintained. BMG articles can be formed without forming an underfilled part. Additional structural features can be imparted in the BMG article during formation. At least a portion of the formed BMG article can have an aspect ratio (first dimension/second dimension) of at least 10 or less than 0.1. | 03-27-2014 |
| 20140083641 | METHODS OF MELTING AND INTRODUCING AMORPHOUS ALLOY FEEDSTOCK FOR CASTING OR PROCESSING - Various embodiments provide apparatus and methods for melting and introducing alloy feedstock for molding by using a hollow branch having a constraint mechanism therein. In one embodiment, a hollow branch can extend upward from a cold chamber that is substantially horizontally configured. The hollow branch including a constraint mechanism can be capable of containing an alloy feedstock for melting into the molten alloy in the hollow branch and introducing the molten alloy to the cold chamber for molding. | 03-27-2014 |
| 20140083645 | COLD CHAMBER DIE CASTING WITH MELT CRUCIBLE UNDER VACUUM ENVIRONMENT - Exemplary embodiments described herein relate to methods and systems for casting metal alloys into articles such as BMG articles. In one embodiment, processes involved for storing, pre-treating, alloying, melting, injecting, molding, etc. can be combined as desired and conducted in different chambers. During these processes, each chamber can be independently, separately controlled to have desired chamber environment, e.g., under vacuum, in an inert gas environment, or open to the surrounding environment. Due to the flexible, independent control of each chamber, the casting cycle time can be reduced and the production throughput can be increased. Contaminations of the molten materials and thus the final products are reduced or eliminated. | 03-27-2014 |
| 20140083646 | COUNTER-GRAVITY CASTING OF HOLLOW SHAPES - The embodiments described herein relate to methods and apparatus for counter-gravity formation of BMG-containing hollow parts. In one embodiment, the BMG-containing hollow parts may be formed by first feeding a molten metal alloy in a counter-gravity direction into a mold cavity to deposit the molten metal alloy on a surface of the mold cavity and then solidifying the deposited molten metal alloy. | 03-27-2014 |
| 20140087321 | ACTIVE COOLING REGULATION OF INDUCTION MELT PROCESS - Various embodiments provide methods and apparatus for active cooling regulation of a melting process. In one embodiment, a meltable material can be melted in a vessel that includes cooling channel(s) configured therein. A contact temperature T | 03-27-2014 |
| 20140090752 | COATING OF BULK METALLIC GLASS (BMG) ARTICLES - Exemplary embodiments described herein relate to methods and apparatus for forming a coating layer at least partially on surface of a BMG article formed of bulk solidifying amorphous alloys. In embodiments, the coating layer may be formed in situ during formation of a BMG article and/or post formation of a BMG article. The coating layer may provide the BMG article with surface hardness, wear resistance, surface activity, corrosion resistance, etc. | 04-03-2014 |
| 20140090793 | COLD CHAMBER DIE CASTING OF AMORPHOUS ALLOYS USING COLD CRUCIBLE INDUCTION MELTING TECHNIQUES - Various embodiments provide systems and methods for casting amorphous alloys. Exemplary casting system may include an insertable and rotatable vessel configured in a non-movable induction heating structure for melting amorphous alloys to form molten materials in the vessel. While the molten materials remain heated, the vessel may be rotated to pour the molten materials into a casting device for casting them into articles. | 04-03-2014 |
| 20140090796 | CONTINUOUS AMORPHOUS FEEDSTOCK SKULL MELTING - Described herein is a method of melting a bulk metallic glass (BMG) feedstock, comprising: feeding the BMG feedstock into a crucible; melting a first portion of the BMG feedstock to form molten BMG, while maintaining a second portion of the BMG feedstock solid; wherein the second portion and the crucible hold the molten BMG. | 04-03-2014 |
| 20140090797 | VERTICAL SKULL MELT INJECTION CASTING - Described herein is a device comprising a crucible, a movable base and a heater; wherein the heater is configured to melt BMG to form molten BMG feedstock in the crucible; wherein the movable base configured to slide along a length of the crucible; wherein the movable base and the crucible are configured to hold the molten BMG feedstock. | 04-03-2014 |
| 20140090798 | OPTIMIZED MULTI-STAGE INDUCTIVE MELTING OF AMORPHOUS ALLOYS - Described herein is a method of melting a bulk metallic glass (BMG) feedstock, comprising: heating at least a portion of the BMG feedstock to temperatures slightly below a solidus temperature of the BMG, wherein the portion remains a solid at the temperatures slightly below the solidus temperature and wherein a temperature distribution of the portion is essentially uniform; heating the portion of the BMG feedstock to temperatures above a liquidus point. | 04-03-2014 |
| 20140090799 | MELT-CONTAINMENT PLUNGER TIP FOR HORIZONTAL METAL DIE CASTING - Various embodiments provide apparatus and methods for injection molding. In one embodiment, a constraining plunger may be configured in-line with an injection plunger to transfer a molten material from a melt zone and into a mold. The constraining and injection plungers are configured to constrain the molten material there-between while moving. The constrained molten material can be controlled to have an optimum surface area to volume ratio to provide minimized heat loss during the injection molding process. The system can be configured in a longitudinal direction (e.g., horizontally) for movement between the melt zone and mold along a longitudinal axis. A molded bulk amorphous object can be ejected from the mold. | 04-03-2014 |
| 20140102661 | INLINE MELT CONTROL VIA RF POWER - Various embodiments provide apparatus and methods for melting materials and for containing the molten materials within melt zone during melting. Exemplary apparatus may include a vessel configured to receive a material for melting therein; a load induction coil positioned adjacent to the vessel to melt the material therein; and a containment induction coil positioned in line with the load induction coil. The material in the vessel can be heated by operating the load induction coil at a first RF frequency to form a molten material. The containment induction coil can be operated at a second RF frequency to contain the molten material within the load induction coil. Once the desired temperature is achieved and maintained for the molten material, operation of the containment induction coil can be stopped and the molten material can be ejected from the vessel into a mold through an ejection path. | 04-17-2014 |
| 20140251568 | METHODS OF MELTING AND INTRODUCING AMORPHOUS ALLOY FEEDSTOCK FOR CASTING OR PROCESSING - Various embodiments provide apparatus and methods for melting and introducing alloy feedstock for molding by using a hollow branch having a constraint mechanism therein. In one embodiment, a hollow branch can extend upward from a cold chamber that is substantially horizontally configured. The hollow branch including a constraint mechanism can be capable of containing an alloy feedstock for melting into the molten alloy in the hollow branch and introducing the molten alloy to the cold chamber for molding. | 09-11-2014 |
| 20140348571 | JOINING BULK METALLIC GLASS SHEETS USING PRESSURIZED FLUID FORMING - Provided in one embodiment is a method of joining one or more articles together using pressurized fluid to deform a bulk-solidifying amorphous alloy material and form a mechanical interlock between the respective surfaces joined together. | 11-27-2014 |
