Titanium Tungsten Alloys

Description: M-3 Low-Carbon, Low Alloy, and Tool Steels BHCM3 M-4 Cast Iron BHCM4 M-5 Stainless Steels BHCM5 M-6 Nickel-Based and Cobalt-Containing Alloys BHCM6 M-7 Titanium and Titanium Alloys BHCM7 M-8 Refractory Metals, Niobium, Molybdenum

Description: Universal 321 is a titanium stabilized filler metal used with the gas metal arc and gas tungsten arc processes. Universal 321 stabilized weldments are often subjected to severe corrosive and high temperature service such as; aircraft exhaust manifolds, cabin heaters, fire walls and

• Applications: Aerospace / Aircraft (AQ), Other
• Elongation: 40 %
• Light Alloy: Yes
• Shape / Form: Wire / Shaped Wire

Description: Titanium alloy 8A1-1Mo-1V filler metal is for gas-metal-arc and gas tungsten arc welding of base metals of similar analysis.

• Applications: Aerospace / Aircraft (AQ), Other
• Light Alloy: Yes
• Shape / Form: Wire / Shaped Wire
• Standards / Specifications: AMS

Description: Universal Ti 5Al-2.5Sn titanium alloy is easily welded with the gas tungsten arc, gas metal arc or resistance welding processes. 100% joint efficiency can be obtained provided proper shielding procedures are used. Alloy 4953 is often employed for applications where wed

• Applications: Aerospace / Aircraft (AQ), Other
• Elongation: 10 %
• Light Alloy: Yes
• Shape / Form: Wire / Shaped Wire

Description: Universal 6Al-4V titanium alloy is often welded with the gas tungsten arc or gas metal arc welding process, provided adequate inert gas shielding of the filler wire and deposited weld metal is provided. As with all titanium alloys the affinity of hot weld metal for

• Applications: Aerospace / Aircraft (AQ), Pressure Vessel (PVQ), Other
• Elongation: 10 %
• Light Alloy: Yes
• Shape / Form: Wire / Shaped Wire

Description: Terbium, Tb Hafnium, Hf Tin, Sn Indium, In Titanium, Ti Iridium, Ir Tungsten, W Iron, Fe Vanadium, V Lanthanum, La Ytterbium, Yb Lead, Pb

• Applications: Electronics / RF-Microwave
• Shape / Form: Semi-finished Shape / Mill Stock
• Types: C.P. Titanium

Description: PLANSEE supplies the world's largest refractory metal sheets made from highly pure raw materials. Sheets made of pure molybdenum, tungsten, tantalum and niobium and the alloys TZM (titanium-zirconium- molybdenum) and ML (molydenum-lanthanum ) are availble hot and cold-rolled in

• Metal / Alloy Types: Refractory / Reactive (UNS R), Molybdenum / Molybdenum Alloy
• Shape / Form: Semi-finished Shape / Mill Stock, Sheet

Description: at a wavelength of 390 nm. The method may be used to determine titanium contents in the range of 0,3 % (m/m) to 5,0 % (m/m). Evidence exists that extension of this method is possible for titanium contents down to 0,05 % (m/m); modifications allow to determine titanium in

Description: ISO 24034:2010 specifies requirements for the classification of solid wire electrodes, solid wires and rods for fusion welding of titanium and titanium alloys. The classification is based on their chemical composition. The compositions of solid wire electrodes for metal inert

Description: M-3 Low-Carbon, Low Alloy, and Tool Steels BHCM3 M-4 Cast Iron BHCM4 M-5 Stainless Steels BHCM5 M-6 Nickel-Based and Cobalt-Containing Alloys BHCM6 M-7 Titanium and Titanium Alloys BHCM7 M-8 Refractory Metals, Niobium, Molybdenum

Description: titanium-aluminium-b ased alloys. Standard coatings (in the chart "basic coatings") made from TiN or TiAlN are suitable for use in a vast range of sectors. And by introducing carefully chosen alloy elements, we can optimize the performance of the coatings ("alloyed

• Type: Sputtering Target

Description: Specification for nickel base cobalt-tungsten-chro mium-aluminium-tanta lum-hafnium-titanium alloy castings (Co 10, W 10, Cr 9, Al 5.5, Ta 2.5, Hf 1.5, Ti 1.5)

Description: Specification for nickel base cobalt-tungsten-chro mium-aluminium-molyb denum-titanium-tanta lum alloy castings (Co 10, W 10, Cr 9, Al 5.5, Mo 2.5, Ti 1.5, Ta 1.5)

Description: temperatures. TiSiN-coated tools are extremely wear-resistant and permit high machining speeds. Machining operations without the use of coolants also pose no problem. Even tough materials such as nickel-based alloys and titanium-based materials are easy to machine using

• Type: Sputtering Target

Description: variables listed in Clause 8. It is intended that tests be carried out in accordance with this International Standard. Additional tests may be required by application standards. ISO 15614-5:2004 applies to the arc welding of titanium, zirconium and their alloys in all product

Description: ductility and maximum purity. It is possible to produce layers with high platinum thickness, maximum corrosion resistance and excellent service life. Refractory metals such as titanium, niobium, tantalum, molybdenum and tungsten are usually used as the substrate in the production of

• Applications / Industry: Specialty / Other
• Type: Anode / Anode Material

Description: Specification for Nickel-cobalt-tungst en-chromium-aluminiu m-molybdenum titanium-tantalum alloy castings - (Nickel base Co 10.0, W 10.0, Cr 9.0, Al 5.5, Mo 2.5, Ti 1.5, Ta 1.5)

Description: This specification covers nickel-chromium-moly bdenum-columbium (UNS N06625), nickel-chromium-moly bdenum-silicon alloy (UNS N06219), and nickel-chromium-moly bdenum-tungsten alloy (UNS N06650) in the form of hot-worked rod and bar and cold-worked rod. The matreial shall

Description: at a wavelength of 390 nm. The method may be used to determine titanium contents in the range of 0,3 % (m/m) to 5,0 % (m/m). Evidence exists that extension of this method is possible for titanium contents down to 0,05 % (m/m); modifications allow to determine titanium in

Description: This guide covers rolled nickel-chromium-moly bdenum-tungsten alloys plate, sheet, and strip. The material shall be composed of carbon, manganese, silicon, phosphorus, sulfur, chromium, cobalt, tungsten, molybdenum, iron, aluminum, titanium, nickel, and copper. The

Description: 1.1 These test methods cover procedures for the chemical analysis of titanium and titanium alloys containing the following elements in the concentration ranges listed: Element Concentration Range, % Aluminum 1 to 10 Chloride 0.02 to 1.0 Chromium 0.005 to 20 Columbium 0.25 to 5.0

Description: ISO 24034:2010 specifies requirements for the classification of solid wire electrodes, solid wires and rods for fusion welding of titanium and titanium alloys. The classification is based on their chemical composition. The compositions of solid wire electrodes for metal inert

Description: Specification for Nickel-cobalt-tungst en-chromium-aluminiu m-tantalum-hafnium-t itanium alloy castings - (Nickel base Co 10.0, W10.0, Cr 9.0, Al 5.5, Ta 2.5, Hf 1.5, Ti 1.5)

Description: This specification covers nickel-chromium-moly bdenum-columbium (UNS N06625), nickel-chromium-moly bdenum-silicon alloy (UNS N06219), and nickel-chromium-moly bdenum-tungsten alloy (UNS N06650) in the form of hot-worked rod and bar and cold-worked rod. The matreial shall

Description: M-3 Low-Carbon, Low Alloy, and Tool Steels BHCM3 M-4 Cast Iron BHCM4 M-5 Stainless Steels BHCM5 M-6 Nickel-Based and Cobalt-Containing Alloys BHCM6 M-7 Titanium and Titanium Alloys BHCM7 M-8 Refractory Metals, Niobium, Molybdenum

Description: M-3 Low-Carbon, Low Alloy, and Tool Steels BHCM3 M-4 Cast Iron BHCM4 M-5 Stainless Steels BHCM5 M-6 Nickel-Based and Cobalt-Containing Alloys BHCM6 M-7 Titanium and Titanium Alloys BHCM7 M-8 Refractory Metals, Niobium, Molybdenum

Description: , titanium, and molybdenum also have this resistance, but less than tungsten and tantalum.2,3 Structural materials such as steel, stainless steel, and nickel alloys can generally tolerate gallium service up to the 300– 500°C range. However, even at ambient temperatures, gallium

• Form / Shape: Paste
• Soldering Filler Alloys: Indium (In)

Description: ISO 5817:2014 provides quality levels of imperfections in fusion-welded joints (except for beam welding) in all types of steel, nickel, titanium and their alloys. It applies to material thickness = 0,5 mm. It covers fully penetrated butt welds and all fillet welds. Its principles can

Description: variables listed in Clause 8. It is intended that tests be carried out in accordance with this International Standard. Additional tests may be required by application standards. ISO 15614-5:2004 applies to the arc welding of titanium, zirconium and their alloys in all product forms

Description: metals: aluminium and aluminium alloys; copper and copper alloys; nickel alloys; titanium and titanium alloys; magnesium alloys; zinc-based alloys; tin and tin alloys; tungsten alloys; lead and lead alloys; zinc-,

Description: PLANSEE supplies the world's largest refractory metal sheets made from highly pure raw materials. Sheets made of pure molybdenum, tungsten, tantalum and niobium and the alloys TZM (titanium-zirconium- molybdenum) and ML (molydenum-lanthanum ) are availble hot and cold-rolled in

• Metal / Alloy Types: Refractory / Reactive (UNS R), Molybdenum / Molybdenum Alloy
• Shape / Form: Semi-finished Shape / Mill Stock, Sheet

Description: Spoolarc 65 is a triple deoxidized (Aluminum, Titanium, Zirconium) welding wire designed for welding over rust and mill scale. The less fluid weld puddle of Spoolarc 65 makes it easy to control when used out of position. Spoolarc 65 is the preferred wire for all position welding of small

• Alloy Type: Steel - Carbon
• Approvals / Conformance: CWB
• Elongation: 31 %
• Tensile Strength (UTS): 81946 psi

Description: · Tungsten alloys · Titanium alloys Metal injection molding (MIM) is a metalworking process in which finely-powdered metal is mixed with binder material to create a “feedstock” that is then shaped and solidified using injection molding. The molding process

• Location: East Asia / Pacific Only
• Metal Types: Copper, Iron-Nickel Alloy, Tungsten-Copper Alloy, Carbon Steel, Nickel Steel, Stainless Steel, Titanium Alloys
• Services Offered: Powder Metal (P/M) Services, Prototype

Description: capabilities Very high volume production series run on fully-automatic injection molding machines using multi-cavity tools Components can be heat and surface treated, plated, welded and soldered Materials Low Alloy Steels Stainless Steels Titanium Heavy Alloy

• Location: North America, United States Only, Northeast US Only, Europe Only, South Asia Only
• Metal Types: Copper, Iron-Nickel Alloy, Tungsten-Copper Alloy, Carbon Steel, Nickel Steel, Stainless Steel, Superalloys (Inconel 713, etc.), Titanium Alloys, Other
• Services Offered: Clean Room Molding, Micro Molding, Powder Metal (P/M) Services, Prototype, Low Volume Production, High Volume Production, Assembly Services, Design Assistance, Heat Treating / Stress Relieving, Just-In-Time Capability, Machining, Packaging / Shipping, Polishing / Buffing, Tool / Mold Making

Description: The leader in development and manufacturing of Powdered Metal Products via Hot Isostatic Pressing Synertech P/M, Inc. has the technical expertise in PM and HIP to research, develop and produse the highest quality products in a cost effective and timely manner. Synertech P/M, Inc. was established to

• Location: North America, United States Only, Southwest US Only
• Materials / Material Products: Metals / Elements, Ferrous / Iron Based (Steel, Stainless), Non-ferrous, Aluminum / Aluminum Alloy, Cobalt / Cobalt Alloy, Copper / Copper Alloy, Nickel / Nickel Alloy, Refractory / Reactive (Tungsten, Zirconium), Stainless Steel, Titanium / Titanium
• Run / Batch Size: Laboratory / Benchtop Scale, Pilot Scale, Production Lots / Field Scale