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Supplier: Plansee SE
Description: dimensionally stable. Hairline cracks: Sometimes hairline cracks may occur at the inlet radii. These do not impair the functioning of the part. Only if the pressed material adheres to these hairline cracks is it necessary to retouch the die. To do this, we recommend manual polishing using a fine
- Electrode Material: Tungsten
- Form / Shape: Application Specific / Custom
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Supplier: Indium Corporation
Description: temperature lubricants in journal bearings. However, gallium will attack (it alloys with) some metals, even at room temperature. At higher temperatures, gallium dissolves most metals although the refractory metals, particularly tungsten and tantalum, are resistant to this dissolution.
- Form / Shape: Paste
- Soldering Filler Alloys: Indium (In)
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Supplier: ESAB Welding and Cutting Products
Description: Stoody, an ESAB brand, announced today that it has added a series of new plasma transfer arc (PTA) and laser cladding powders to its growing consumables product offering. Joining Stoody's recently released series of 6040 nickel-based tungsten carbide blends are two new nickel-based powder
- Alloy Type: Cobalt Alloy, Nickel Alloy
- Form / Shape: Powder
- Tips / Electrodes: Other
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Supplier: Morgan Advanced Materials
Description: The Wesgo Metals business of Morgan Technical Ceramics manufactures and supplies high-purity, low vapour pressure brazing alloys in various forms. Precious and non-precious alloys are available in atomized powder, discs, evaporation slugs, extrudable paste, FlexibrazeTM, preforms, ribbon,
- Form / Shape: Strip / Sheet / Foil
- Melting Range: 1803 to 1929 F
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Supplier: Morgan Advanced Materials
Description: The Wesgo Metals business of Morgan Technical Ceramics manufactures and supplies high-purity, low vapour pressure brazing alloys in various forms. Precious and non-precious alloys are available in atomized powder, discs, evaporation slugs, extrudable paste, FlexibrazeTM, preforms, ribbon,
- Form / Shape: Strip / Sheet / Foil
- Melting Range: 1103 to 1202 F
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Supplier: Morgan Advanced Materials
Description: The Wesgo Metals business of Morgan Technical Ceramics manufactures and supplies high-purity, low vapour pressure brazing alloys in various forms. Precious and non-precious alloys are available in atomized powder, discs, evaporation slugs, extrudable paste, FlexibrazeTM, preforms, ribbon,
- Form / Shape: Strip / Sheet / Foil
- Melting Range: 1490 to 1564 F
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Supplier: Morgan Advanced Materials
Description: The Wesgo Metals business of Morgan Technical Ceramics manufactures and supplies high-purity, low vapour pressure brazing alloys in various forms. Precious and non-precious alloys are available in atomized powder, discs, evaporation slugs, extrudable paste, FlexibrazeTM, preforms, ribbon,
- Form / Shape: Strip / Sheet / Foil
- Melting Range: 1725 to 1790 F
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Supplier: Washington Alloy Co.
Description: alloys are mostly used in electrical components, petrochemical applications, brazing and joining of mild steel, tool steel, tungsten carbide tool tips and copper or nickel alloys. Although the cadmium-bearing alloys provide some advantages, they are potentially dangerous due to the toxicity
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Supplier: Washington Alloy Co.
Description: melting range and excellent fluidity. These alloys are mostly used in electrical components, petrochemical applications, brazing and joining of mild steel, tool steel, tungsten carbide tool tips and copper or nickel alloys. Although the cadmium-bearing alloys provide some advantages, they are
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Supplier: Washington Alloy Co.
Description: melting range and excellent fluidity. These alloys are mostly used in electrical components, petrochemical applications, brazing and joining of mild steel, tool steel, tungsten carbide tool tips and copper or nickel alloys. Although the cadmium-bearing alloys provide some advantages, they are
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Supplier: Washington Alloy Co.
Description: melting range and excellent fluidity. These alloys are mostly used in electrical components, petrochemical applications, brazing and joining of mild steel, tool steel, tungsten carbide tool tips and copper or nickel alloys. Although the cadmium-bearing alloys provide some advantages, they are
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Supplier: 3X Ceramic Parts Company Limited
Description: Sealing method: At present, there are two mature methods for sealing ceramics and metals: refractory metal method and active metal method. Refractory Metal Method: The paddle made of platinum, tungsten or rhenium metal powder and binder is coated on the surface of talc porcelain or a
- Density: 3.6 to 3.9 g/cc
- Material Type: Alumina / Aluminum Oxide
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Supplier: 3X Ceramic Parts Company Limited
Description: use Tungsten steel drill when pursuit of high efficiency . Thread Tapping: The tapping of machinable ceramics is somewhat different from the tapping of metal materials. The gaps between the holes and the holes to be tapped should be larger than those of the metal
- Applications: Dielectric / Electrical Insulation
- Compressive / Crushing Strength: 73679 psi
- Density: 2.48 g/cc
- MOR / Flexural Strength: 15664 psi
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packaging of Kovar, carbon steel, stainless steel, tungsten copper and aluminum alloy, and can also meet the energy storage Welding, parallel seam welding, tin soldering and laser sealing welding and other welding methods; -Insulation resistance ≥5000MΩ (500V DC); -Air tightness (read more)
Browse Glass Ceramics Datasheets for Xiamen Innovacera Advanced Materials Co., Ltd. -
. Ceramic to metal Sealing method: At present, there are two mature methods for sealing ceramics and metals: refractory metal method and active metal method. Refractory Metal Method: The paddle made of platinum, tungsten or rhenium metal powder and binder is coated on (read more)
Browse Industrial Ceramic Materials Datasheets for 3X Ceramic Parts Company Limited
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High-Temperature Co-Fired Ceramics(HTCC)
HTCC ceramic heating element is the abbreviation of High-temperature co-fired ceramics. It is made of tungsten, molybdenum, molybdenum, manganese and other high melting point metal heating resistor paste printed on 92%~96% alumina cast ceramic green body according to the requirements of heating
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A Brief Introduction to HTCC
HTCC (High Temperature co-fired Ceramic) adopts tungsten, molybdenum, molybdenum, manganese, and other High melting point metal heat resistance paste printed on 92 ~ 96% alumina flow Ceramic green billet according to the design requirements of heat circuit, 4 ~ 8% sintering agent and then laminated
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What Do You Know About MCH Heater?
It refers to a ceramic heating element in which a meta tungsten or molybdenum manganese paste is printed on a ceramic casting body and laminated by hot pressing and then co-fired at 1600 A C, in a hydrogen atmosphere to co-sinter ceramic and metal. MCH ceramic heating element is high-efficiency
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What's the Ceramic Heater for Soldering Iron
Innovacera heating element is the PROCESS of MCH (Metal Ceramics Heater). It is the material of tungsten, molybdenum, molybdenum, manganese, and other high melting points Metal heating resistance paste is printed on 92 ~ 96% alumina flow ceramic green billet according to the requirements of heating
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Indicates content that may require registration and/or purchase.
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Photosensitive Conductive Paste
Toray has developed the first photosensitive or photoprintable copper, silver, silver-palladium, and tungsten pastes which can form fine patterns of a resolution of 30fim/30fim (LIS,lineispace width) on both ceramic substrate and ceramic green sheet with photolithography.
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Generalized Epileptic Seizures, Induced by “Non‐convulsant” Substances
SUMMARY The authors studied the effects of injections of small and large doses of insulin administered to cats in which an epileptic focus had been produced by cortical application of penicillin or intracortical injection of tungsten paste .
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The study on pad of AlN multilayer cofire ceramic substrate
A tungsten paste is proposed with Ni as the additive for AIN substrate.
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Screen printed piezoelectric films for energy harvesting
In addition to this, a screen printable tungsten paste was also developed that enabled the inertial mass to also be printed.
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Characterizing flows with an instrumented particle measuring Lagrangian
accelerations
b) Possible mass distributions of the particle; its inertia consists mainly of a disk and a spherical shell, with different den- sity adjustment and imbalance settings by adding Tungsten paste (in blue); experiments are best done with a symmetrical repartition of the …
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Shape from focus: an effective approach for rough surfaces
Fig.lOa and 10bshow the camera and SEMimages of a tung- sten paste filling in a via-hole on a ceramic substrate [16]that is used to establishelectricalconnectionsbetween differentcomponents.
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Measuring Lagrangian accelerations using an instrumented particle
It is leak-proof and its density can be matched to fluids by adding extra weight (namely Tungsten paste ) to the particle’s interior; within the density range of 0.8 − 1.4 g/cm3 a relative .
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Excimer laser patterning of thick and thin films for high-density packaging
Microrel 3 -% * o M 20/10 N E1 K 0 0 1 2 3 2 Fluence J / cm Figure 2a Etch rate against fluence for 2 types of screen printed tungsten paste .
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An issue in thermal management: Metallizing high thermal conductivity ceramic substrates in microelectronics
The cofiring metal- lization process uses AlN green tape (AlN ceramic powder with its associ- ated organic vehicle) onto which the tungsten paste (powder suspended in anorganic medium) isapplied by screen printing.
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Effect of oxygen partial pressure on tungsten-alumina bonding behaviour
Tungsten paste was prepared by mixing tungsten powder (purity 99.9%, average particle size 0.8/xm), terpineol as solvent and 3 wt % ethyl-cellulose as binder.