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Matches 201 - 250 out of 3,598

Document Document Title
WO/2016/030361A1
Disclosed is a method of brazing articles together to form at least one braze defined by complementarily curved faying surfaces on the articles, the faying surfaces each having at least one region of curvature comprising at least one poi...  
WO/2016/026061A1
Thermal-energy generator device based on a continuous strip of amorphous metal included between two plates that may be made from different materials. It is used to generate thermal energy, being able to transfer heat to other devices dir...  
WO/2016/023244A1
A method for integrally forming a non-metal part and a metal part. The method comprises the following steps: A, arranging a non-transparent non-metal part in a mold; B, arranging a metal part on the periphery of the non-metal part in the...  
WO/2016/012636A1
Wireless sensor for detecting pressure. The invention relates to a wireless pressure-detecting sensor comprising a closed ring of amorphous magnetoelastic microwire. The invention also relates to a device for detecting the pressure exert...  
WO/2016/014993A1
The disclosure is directed to methods of forming metallic glass multilayers by depositing a liquid layer of a metallic glass forming alloy over a metallic glass layer, and to multilayered metallic glass articles produced using such methods.  
WO/2016/010133A1
Provided is an alloy powder of the compositional formula Fe100-a-b-c-d-e-fCoaBbSicPdCueCf, having an amorphous phase as the principal phase. When the parameters of the composition satisfy the conditions: 3.5 ≦ a ≦ 4.5 at%; 6 ≦ b â‰...  
WO/2016/008674A1
The invention relates to a method for producing a component from an at least partially amorphous metal alloy, comprising the steps of: providing a powder of an at least partially amorphous metal alloy; creating a formed semifinished prod...  
WO/2016/002925A1
A composite body is obtained by pressure-forming a mixed powder comprising 20-50% by volume of a metal powder and 50-80% by volume of a diamond powder in which the first peak of volume distribution of particle sizes is 5-25 µm, the seco...  
WO/2016/002945A1
This method for producing a magnetic core comprises a first heat treatment step, an intermediate production step and a second heat treatment step. In the first heat treatment step, a thin strip formed of an alloy composition is subjected...  
WO/2015/198790A1
[Problem] To improve the composition of a conventional nickel-based amorphous alloy ribbon for brazing, to enhance workability by suppressing embrittlement and clogging of a casting nozzle when producing the ribbon, and to enhance connec...  
WO/2015/184438A1
The disclosure provides Au-Al-Rare-Earth metallic glass-forming alloys and metallic glasses comprising various other additions including but not limited to Cu, Pd, Sn and Mg. In certain embodiments, the metallic glasses according to the ...  
WO/2015/173211A1
The invention relates to a method for producing a component from an at least partially amorphous metal alloy, having the steps of: preparing a powder of an at least partially amorphous metal alloy, wherein the powder consists of spherica...  
WO/2015/168481A1
Disclosed herein is a method comprising: spraying a coating onto a surface of a component, wherein the coating is at least partially amorphous, wherein the coating is configured to protect the component for underground use. Disclosed her...  
WO/2015/151420A1
One of the processes comprises jetting injection water having a liquid temperature of 10°C or lower and an injection pressure of 5 MPa or higher against a flow of molten metal to divide the flow of molten metal into metal particles and ...  
WO/2015/147064A1
Provided is a magnetic core component wherein: no faults such as cracks occur, even if same contains at least 90% by mass amorphous metal powder; and sufficient mechanical strength can be obtained. The magnetic core component comprises a...  
WO/2015/131431A1
Provided are a Zr-Cu-Ni-Al-Ag-Y bulk amorphous alloy, and a preparation method and an application thereof. The ingredients of the alloy are: 41%-63% of Zr, 18%-46% of Cu, 1.5%-12.5% of Ni, 4%-15% of Al, 0.01%-5% of Ag and 0.01%-5% of Y, ...  
WO/2015/125625A1
The present invention provides a dental member which has a reduced size and therefore does not damage a tooth root upon implantation thereof, has high strength and low elasticity, and exhibits excellent engraftment stability after implan...  
WO/2015/096479A1
A zirconium-based amorphous alloy and a preparation method therefor. The composition of the amorphous alloy is ZraCubAlcMd(Er1-xYx)e, wherein M is at least one selected from Ni, Fe, Co, Mn, Cr, Ti, Hf and Ta, 40≤a≤70, 15≤b≤35, 5â...  
WO/2015/082175A1
A zirconium and/or hafnium-based bulk amorphous alloy, free of beryllium, with addition of silver, gold and/or platinum to increase the critical diameter thereof.  
WO/2015/066145A1
A reusable mold comprising a flexible bulk metallic glass mold insert comprising one or more mold cavities removably coupled to a support mold and a method of making the reusable mold. The support mold is removable from the flexible bulk...  
WO/2015/046140A1
A method for producing a Fe-based nano-crystal alloy ribbon involves a heat treatment step of heating a Fe-based amorphous alloy ribbon that can be transformed into nano-crystals to a temperature falling within a crystallization temperat...  
WO/2015/035845A1
Provided are a zirconium-based amorphous alloy and a preparation method therefor. By adjusting the atomic percentage contents of the components in the zirconium-based amorphous alloy and adding the elements of Y, Sc, Si and C thereto, th...  
WO/2015/032158A1
A method for preparing a magnesium-based hydrogen storage material, comprising: 1. a Mg-Ce-Ni system amorphous alloy is prepared via a rapid cooling method; 2. the amorphous alloy acquired is crushed to acquire an amorphous powder; 3. th...  
WO/2015/030566A1
The present invention provide a method for manufacturing an amorphous material, which is a method capable of effectively forming an amorphous bulk material using amorphous powders, and which comprises the steps of: providing amorphous po...  
WO/2015/024890A1
The invention present presents a class of alloys which form metallic glass upon cooling below the glass transition temperature Tg at a rate below 100 K/sec and having a high value of temperature difference (DT) between the crystallizatio...  
WO/2015/016161A1
A high-magnetic-flux-density and low-iron-loss Fe-B-Si-based thin amorphous alloy strip having a component composition that is represented by the chemical formula FexBySiz(where x: 78-83 at%; y: 8-15 at%; and z: 6-13 at%) and that prefer...  
WO/2015/011793A1
A pressed-powder soft magnetic body in which an amorphous soft magnetic alloy including Fe is attached with an oxide glass, wherein the oxide glass includes V2O5 and TeO2. A manufacturing method for the pressed-powder soft magnetic body ...  
WO/2015/005932A1
The present disclosure is drawn to amorphous thin metal films and associated methods. Generally, an amorphous thin metal film can comprise a combination of four metals or metalloids including: 5 at% to 85 at% of a metalloid selected from...  
WO/2014/196820A1
The purpose of the present invention is to provide a highly corrosion-resistant Zr-group amorphous alloy composition containing a higher Zr content compared to existing amorphous alloys, and comprising only commercial metal elements, and...  
WO/2014/159249A1
A precursor for forming a quaternary silicon composite comprises a mixture of nanocrystalline powders comprising Si, Mn, one of Ti and Zr, and B. A quaternary silicon composite prepared by powder consolidation comprises a compact includi...  
WO/2014/151715A2
Disclosed herein is a bulk metallic glasses (BMG) comprising 0.0001 wt% to 0.7 wt% of Be, 0.0001 wt% to 0.2 wt% of Be, or 0.06 wt% to 0.08 wt% of Be. Be may have the effect of reducing a liquidus temperature of the BMG relative to meltin...  
WO/2014/145747A1
The disclosure is directed to a method of forming high-aspect-ratio metallic glass articles that are substantially free of defects and cosmetic flaws by means of rapid capacitive discharge forming. Metallic glass alloys that are stable a...  
WO/2014/136148A1
The present invention is to provide powder made of iron-based metallic glass, the corrosion resistance of which is improved over the conventional powder made of iron-based metallic glass. The basic composition includes a group of iron-ba...  
WO/2014/131150A1
A powder material used for a capacitor-level tantalum-niobium alloy wire material and a preparing method thereof. The powder material is formed by tantalum powder and niobium powder, wherein the weight proportion of the tantalum powder a...  
WO/2014/126143A1
Provided are: a CoFe system alloy for soft magnetic thin film layers in perpendicular magnetic recording media; and a sputtering target material. This alloy is an alloy for soft magnetic film layers in perpendicular magnetic recording me...  
WO/2014/126220A1
An annular magnetic core that comprises an iron-based nanocrystalline soft-magnetic alloy, some of the iron in which is substituted with nickel and/or cobalt. Said annular magnetic core exhibits a relative AC permeability (μr100k(50)) o...  
WO/2014/120788A1
Golf clubs formed from bulk-solidifying amorphous metals (i.e., metallic glasses) having high elastic modulus and fracture toughness, and to methods of forming the same are provided. Among other components, the golf club materials disclo...  
WO/2014/116709A1
A method of forming a bulk metallic glass is provided. The method includes overheating the alloy melt to a temperature above a threshold temperature, Ttough, associated with the metallic glass demonstrating substantial improvement in tou...  
WO/2014/114756A1
The invention provides methods for creating a 0.8 - 4.5 mm thick steel strip with an amorphous, partially amorphous or finely crystalline structure with grain sizes in the range from 10 - 10 000 nm and also a flat steel product of a corr...  
WO/2014/101744A1
An amorphous alloy and a method for preparing the amorphous alloy are provided. The amorphous alloy is represented by a formula of (Zr,Hf)aMbNcBed. M contains at least one element selected from transition group elements. N contains at le...  
WO/2014/101654A1
Disclosed are a use of a noncrystalline alloy material source as a sputtering source or an evaporation source in a sputtering or deposition process to form a noncrystalline alloy film, a composite material and a method of preparing the c...  
WO/2014/088774A1
A novel magneto caloric material (MCM) is provided that can be used in, for example, a regenerator of a heat pump, appliance, air conditioning system, and other heating and/or cooling devices. The MCM is a type of Heusler alloy, has an L...  
WO/2014/079188A1
Disclosed is a zirconium-based amorphous alloy. The composition of the zirconium-based amorphous alloy is (Zr, Hf, Nb)aCubNicAldRee, wherein a, b, c, d and e are the corresponding contents in atomic percent of each element in the zirconi...  
WO/2014/071843A1
A vacuum-induced smelting and rapid hardening equipment for a rare earth permanent magnetic alloy, comprising a vacuum-induced smelting and rapid hardening chamber (1), a material collecting and temperature maintained treatment chamber (...  
WO/2014/070898A1
A Ni-based bulk metallic glass forming alloy is provided. The alloy includes Ni(100-a-b-c-d)CraNbbPcBd, where an atomic percent of chromium (Cr) a ranges from 3 to 13, an atomic percent of niobium (Nb) b is determined by x-y*a, where x r...  
WO/2014/059769A1
Disclosed is a zirconium-based amorphous alloy. The composition of the zirconium-based amorphous alloy is (Zr, Hf, Nb)aCubTicAldREe, wherein a, b, c, d and e are a corresponding content in atomic percent of each element in the zirconium-...  
WO/2014/058893A1
The disclosure provides Ni-Mo-P-B, Ni-Mo-Nb-P-B, and Ni-Mo-Nb-Mn-P-B alloys capable of forming metallic glass objects. The metallic glass objects can have lateral dimensions in excess of 1 mm and as large as 3 mm or larger. The disclosur...  
WO/2014/058498A2
Systems and methods in accordance with embodiments of the invention implement bulk metallic glass-based macroscale compliant mechanisms. In one embodiment, a bulk metallic glass-based macroscale compliant mechanism includes: a flexible m...  
WO/2014/053419A2
Improved mechanical properties can be achieved by the introduction of quasi-crystals, which have mechanical properties comparable to those of ceramics, but have thermal expansion coefficients matching those of metallic materials or metal...  
WO/2014/043722A2
Nickel based alloys capable of forming bulk metallic glass are provided. The alloys include Ni-Cr-Si-B compositions, with additions of P and Mo, and are capable of forming a metallic glass rod having a diameter of at least 1 mm. In one e...  

Matches 201 - 250 out of 3,598