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Edgetech Industries (ETI) has been specializing in providing rare earth elements, refractory metals, deposition materials (sputtering target & evaporation materials), semi-metals, advanced ceramics, functional materials and permanent magnets for years. We strive to deliver the highest-quality materials, adhere to the most rigorous quality control system, while providing excellent value to our customers. 

Products

  • Vacuum smelting high-pressure gas atomization technology

    Vacuum smelting high-pressure gas atomization technology

    Vacuum smelting high-pressure gas atomization technology

  • Titanium but not just titanium

    Titanium but not just titanium

    An introduction to the medical implantation of nitinol products and porous titanium products by Edgetech Industries.

  • Overview of rare earth metals and intermediate alloys

    Overview of rare earth metals and intermediate alloys

    The vast majority of single rare earth metals and their intermediate alloys are used to produce new rare earth metal materials such as neodymium iron boron, samarium cobalt permanent magnet

  • Process of high-density tungsten alloy

    Process of high-density tungsten alloy

    High-density tungsten alloy, also known as tungsten-based heavy alloy, is a type of alloy made of tungsten as the matrix element (85% ~ 99% mass fraction) with the addition of Ni, Cu, Fe and other alloy elements by liquid phase sintering.

  • Alloying of molybdenum

    Alloying of molybdenum

    Titanium Zirconium Molybdenum Alloy (TZM alloy, TZM Molybdenum); Molybdenum Lanthanum Alloy (Mo- La Alloy)

  • Strengthening of Tantalum

    Strengthening of Tantalum

    Tantalum alloys can be strengthened by solid solution strengthening, precipitation strengthening and a combination of both.

  • Nitinol Applications

    Nitinol Applications

    The spectacle frame made of Nitinol severely deformed and then returned to normal. Similarly, a few years ago, when mobile phone antennas were made of Nitinol, they could bend without breaking or permanently bending.

  • The performance influencing factors of pyrolytic boron nitride

    The performance influencing factors of pyrolytic boron nitride

    The production efficiency of boron nitride produced by chemical vapor deposition is high, but this method is easy to introduce pores and impurities into the sintered body and anisotropy caused by hot pressing.

  • Element Properties: 39-45 atomic number

    Element Properties: 39-45 atomic number

    Element Properties: 39-45 atomic number: YTTRIUM, ZIRCONIUM, NIOBIUM, MOLYBDENUM, RUTHENIUM, RHODIUM

  • Rare earth intermetallic compounds

    Rare earth intermetallic compounds

    Rare-earth intermetallic compounds are metal compound phases formed between rare-earth metals and other metals or similar metals.

  • Machining processes of tungsten Ⅱ

    Machining processes of tungsten Ⅱ

    . All the properties make tungsten metal hard to be machined, here we will introduce the machining process for tungsten tube & crucible, Plate, Sheet & Foil.

  • Introduction to Pyrolytic Boron Nitride (PBN)

    Introduction to Pyrolytic Boron Nitride (PBN)

    Pyrolytic Boron Nitride, abbreviated as Pyrolytic BN or PBN ceramic. Also known as Chemical vapour-deposited Boron Nitride, Chemical Vapour-deposition of Boron Nitride or CVD-BN

  • Magnetic characteristics of permanent magnetic materials

    Magnetic characteristics of permanent magnetic materials

    We mainly provide rare earth permanent magnets, including neodymium iron boron magnets and samarium cobalt permanent magnets.

  • Element Properties: 30-38 atomic number

    Element Properties: 30-38 atomic number

    Element Properties: 30-38 atomic number ZINC,GERMANIUM,SELENIUM

  • Overview of Nitinol Material

    Overview of Nitinol Material

    Titanium nickel alloy, also known as Nitinol, is a binary alloy composed of nickel and titanium. The atomic percentages of these two elements are approximately equal.

  • Element Properties: 23-29 atomic number

    Element Properties: 23-29 atomic number

    VANADIUM, CHROMIUM, MANGANESE, IRON,COBALT,NICKEL, COPPER

  • An Overview of Advanced Ceramics

    An Overview of Advanced Ceramics

    The main materials of structural ceramics are alumina (Al2O3), silicon nitride (Si3N4), silicon carbide (SiC), and hexagon boron nitride ceramics (BN).

  • Element Properties: 16-22 atomic number

    Element Properties: 16-22 atomic number

    SULFUR, CHLORINE, ARGON, POTASSIUM, CALCIUM, SCANDIUM, TITANIUM

  • Basic Information of Pyrolytic boron nitride (PBN ceramic)

    Basic Information of Pyrolytic boron nitride (PBN ceramic)

    Pyrolytic boron nitride is an anisotropic high-temperature ceramic with high electrical resistance and good thermal conductivity.

  • Element Properties: 9-15 atomic number

    Element Properties: 9-15 atomic number

    Element Properties: 9-15 atomic number: FLUORINE, NEON, SODIUM, MAGNESIUM, ALUMINUM, SILICON, PHOSPHORUS.

  • Element Properties: 1-7 atomic number

    Element Properties: 1-7 atomic number

    Element Properties: 1-7 atomic number: HYDROGEN, HELIUM,LITHIUM,BERYLLIUM, BORON, CARBON, NITROGEN

  • Superelasticity and Shape Memory of Nitinol

    Superelasticity and Shape Memory of Nitinol

    Nitinol (Nitinol) alloys have many material and device characteristics, for example, kinking resistance, stress constancy, dynamic interference, deflection stiffness, magnetic resonance imaging (MR1) compatibility, radiopacity and biocompatibility.

  • Applications list for niobium

    Applications list for niobium

    Niobium is used in the manufacture of products for diverse applications: -High temperature vacuum furnaces, where it is an excellent getter -Nickel based superalloys; and alloyed with titanium or tin -Superconductors -Sodium vapor lamps, wh

  • Selection of reducing crucible material for Rare Earth

    Selection of reducing crucible material for Rare Earth

    Rare earth fluorides, metals and slag have strong chemical activity, so the crucible material used must be resistant to corrosion by halogens and their compounds at high temperatures and does not interact with rare earth metals. It can be used for a

  • Interaction between rare earth metals and other elements

    Interaction between rare earth metals and other elements

    Rare earth metals have typical metal properties, they have strong chemical activity and can form a variety of compounds. Rare earth metals are widely used as reducing agents.

  • Heat treatment of niobium and niobium alloys

    Heat treatment of niobium and niobium alloys

    The finished products of niobium and niobium alloy materials and their processing and preparation processes need to be annealed and heat treated.

  • Molybdenum-rare earth oxide alloy

    Molybdenum-rare earth oxide alloy

    Molybdenum-rare earth oxide alloy (Mo-REO), also called rare earth molybdenum, is an alloy of molybdenum and rare earth element oxides, which is an oxide dispersion-strengthened alloy, similar to rare earth tungsten.

  • Production method of tantalum tube

    Production method of tantalum tube

    There are several types of tantalum pipe, such as extruded pipe, rolled pipe, drawn pipe, spinning pipe and welded pipe.

  • The main physical properties of rare earth metals

    The main physical properties of rare earth metals

    Rare earth metals as additives to magnesium, aluminum and their alloys, the first thing to consider is their density.

  • Sintered Titanium in hydrogen energy industry

    Sintered Titanium in hydrogen energy industry

    Sintered porous metals are widely used in electrochemical devices such as water electrolysers, unitised regenerative fuel cells (URFCs) as gas diffusion layers (GDLs), and batteries.

  • Applications list for niobium

    Applications list for niobium

    Niobium is used in the manufacture of products for diverse applications: -High temperature vacuum furnaces, where it is an excellent getter

  • Features of porous titanium

    Features of porous titanium

    Porous titanium, also named as sintered titanium and titanium foams, is sintered from titanium powder.

  • Preparation of metal molybdenum powder

    Preparation of metal molybdenum powder

    The method is basically the same as the method for preparing tungsten powder. The hydrogen reduction method of molybdenum oxide is still the only method for producing molybdenum powder.

  • Basic Property of Tantalum-Corrosion Resistance

    Basic Property of Tantalum-Corrosion Resistance

    Tantalum is the most corrosion resistant metal in common use today. Tantalum is not a noble metal, but it is comparable to them in terms of chemical resistance.

  • Applications of porous titanium

    Applications of porous titanium

    With its unique properties, porous titanium can be widely used in the pharmaceutical industry, water treatment industry, food industry, bioengineering, chemical industry, petrochemical, metallurgical industry and gas purification. It is a new materia

  • Titanium expanded mesh terminology and types

    Titanium expanded mesh terminology and types

    Titanium mesh, can be used as corrosion resistance anode, filtering for corrosive substance. Sacrificial anode is the unique usage for titanium mesh.

  • What can Niobium be used for

    What can Niobium be used for

    Niobium is special because its high level of corrosion resistance is achieved at a relatively low weight. In the chemical industry, niobium is a high-quality acid and liquid metal corrosion resistant material that can be used in cooking machines heat

  • Processing performance of Tantalum

    Processing performance of Tantalum

    Tantalum has good plasticity, low deformation resistance, and low process hardening. It can be processed into plates, strips, foils, pipes, rods and wires at room temperature.

  • Knowledge about Titanium Mesh

    Knowledge about Titanium Mesh

    Titanium mesh, can be used as corrosion resistance anode, filtering for corrosive substance. Sacrificial anode is the unique usage for titanium mesh.

  • Manufacturing process of silicon powder

    Manufacturing process of silicon powder

    Silicon powder’s manufacturing process can be simply described as: breaking & milling from silicon lump, but it’s actually much complicated in order to get the powder with required purity and particle size distribution.

  • Basic information of Scandium

    Basic information of Scandium

    Scandium (Sc, atomic number 21) is a rare earth element with atomic weight 44.955908. Its melting point is 2,806°F (1,541°C).

  • Processing & applications of refractory metal bar

    Processing & applications of refractory metal bar

    The most common definition of refractory metals includes five elements: niobium, molybdenum, tantalum, tungsten, and rhenium.

  • What are the applications for niobium products

    What are the applications for niobium products

    Niobium product is dominated by its use as additive to high strength low alloy steel and stainless steel for oil and gas pipelines, car and truck bodies, architectural requirements, tool steels, ships hulls, railroad tracks.

  • Processing of Molybdenum metal I

    Processing of Molybdenum metal I

    Molybdenum is a refractory metal with the symbol Mo and atomic number 42.

  • Molybdenum and Tungsten Crucibles Usage

    Molybdenum and Tungsten Crucibles Usage

    Tungsten and molybdenum crucibles perform extremely well in Heat Exchanger Method (HEM) process and are useful for melting and solidifying of single crystals.

  • The Truth About Nitinol Sheets

    The Truth About Nitinol Sheets

    Nitinol sheet and foil are the most recent and most fun product forms for this distinctive form memory alloy.

  • The Application of Silicon Powder

    The Application of Silicon Powder

    Silicon powder is made from silicon lump by breaking & milling. Depending on the purity & particle size of the silicon powder, it can be used for many purposes.

  • Porous Titanium in Next-Generation PEMFCs

    Porous Titanium in Next-Generation PEMFCs

    Porous titanium has found a wide variety of unique and important applications including filtration, separation, catalyst supporting, gas absorbing, gas sparging, current collection, and medical implantation.

  • Machining processes of tungsten I

    Machining processes of tungsten I

    After sintering, the tungsten blank will be forged, to make a higher density and better mechanical properties.

  • Tungsten tube-High density & melting point metal tube

    Tungsten tube-High density & melting point metal tube

    Tungsten tubes are drilled from tungsten bars / rods, W tube with massive OD are going to be mold directly. Tungsten – periodic symbol W - lays claim to the very best freezing point of all components. This characteristic combined with a su

  • Useful Information of Machined Tantalum

    Useful Information of Machined Tantalum

    Tantalum solid products can be produced by arc cast or PM. Here we introduce the applications and basic information for shaped tantalum products

  • Knowledge about TZM Alloy

    Knowledge about TZM Alloy

    TZM material is an alloy of 0.50% Titanium, 0.08% Zirconium and 0.02% Carbon with the balance Molybdenum and is typically manufactured by powder metallurgy or arc-casting processes.



Edgetech Industries LLC5701 NW 88th Ave. Suite 350, Tamarac, FL 33321sales@edge-techind.com