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Supplier: San Jose Delta Associates, Inc.
Description: . Macor is often the material of choice because it is easy to machine into complex shapes, doesn’t require sintering and is, readily available even in small quantities. Properties MACOR® Machinable Glass Ceramic has a continuous use
- Applications: Refractory / High Temperature Materials
- Coeff. of Thermal Expansion (CTE): 93 µm/m-C
- Density: 2.52 g/cc
- Dielectric Constant (Relative Permittivity): 5.67 to 6.03 #
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Supplier: IRD Glass
Description: , mirrors, sub-assemblies and optical thin film coatings. They also manufacture technical & industrial glass and ceramic components, including standard and custom pedestals, precision glass tubes, rods and substrates for use in optical and industrial applications.
- Application / Industries Served: Chemical Processing, Electrical / HV, Electronics / RF-Microwave, Optical Components, Structural Components, Wear Parts / Tooling
- Fabrication Process: Grinding, Injection Molding, Machining, Sintering / Firing
- Location: North America, United States Only, Midwest US Only
- Materials: Alumina (Al2O3), Glass Ceramic, Sapphire, Zirconia (ZrO2)
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Supplier: San Jose Delta Associates, Inc.
Description: . Macor is often the material of choice because it is easy to machine into complex shapes, doesn’t require sintering and is, readily available even in small quantities. Properties MACOR® Machinable Glass Ceramic has a continuous use
- Applications: Construction & Building / Architectural, Electrical / HV Parts, Refractory / High Temperature Materials, Walls
- Coeff. of Thermal Expansion (CTE): 93 µm/m-C
- Density: 2.52 g/cc
- Dielectric Constant (Relative Permittivity): 5.67 to 6.03 #
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Description: and ceramic lapping, polishing, and water jet cutting. Because of its low specific weight, great hardness, and good toughness, it is an excellent material for body and vehicle armor. Boron carbide is also widely employed in nuclear reactors as control rods, shielding materials, and neutron
- Material Type: Boron Carbide, Specialty Ceramic
- Shape / Form: Plate / Board (e.g., Fiberboard), Tile
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Supplier: SAE International
Description: This specification covers a polytetrafluoroethyl ene (PTFE) resin filled with 25% glass fiber in the form of extruded or molded rods or tubes which are sintered after molding or, in the case of extrusions, sintered during the extrusion process.
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Supplier: CoorsTek
Description: Utilizing core extrusion and ceramic injection molding technologies developed over decades, CoorsTek manufactures high-quality alumina protection tubes. Using a special drying process after extrusion enables us to produce tubes and rods with the highest accuracy in radial dimensions. By
- Applications: Chemical / Materials Processing, Other
- Coeff. of Thermal Expansion (CTE): 8.2 µm/m-C
- Compressive / Crushing Strength: 391599 psi
- Density: 3.92 g/cc
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Supplier: SAE International
Description: This specification covers a polytetrafluoroethyl ene (PTFE) resin filled with 15% glass fiber and 5% molybdenum disulfide in the form of extruded or molded rods or tubes which are sintered after molding or, in the case of extrusions, sintered during the extrusion process.
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Supplier: 3X Ceramic Parts Company Limited
Description: .Ceramic substrate materials include, ZrO2, Al2O3, AlN, SiC, BeO, BN, mullite, and glass ceramics. Application: According to different application fields, zirconia ceramic substrate can be divided into HIC ceramic substrate, focusing potentiometer ceramic substrate, laser heating and fixing
- Material Type: Zirconia, Specialty Ceramics
- Shape / Form: Rod Stock
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Supplier: General Carbide Corporation
Description: Cobalt. Nickel. Tantalum. We offer them all. In fact, we produce more than 50 carbide grades in a wide range of binder concentrations and particle sizes. We also lead the industry with the tightest overall material specifications. Our tungsten carbide grades use cobalt binders ranging in
- Applications: Abrasive / Erosive Wear Protection, Ceramics / Glass Manufacturing, Chemical / Materials Processing, Corrosion Protection, Wear Parts / Tooling, Other
- Carbides / Carbide Ceramic Type: Tungsten Carbide (WC)
- Density: 13.72 to 13.84 g/cc
- MOR / Flexural Strength: 550000 psi
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Supplier: General Carbide Corporation
Description: Cobalt. Nickel. Tantalum. We offer them all. In fact, we produce more than 50 carbide grades in a wide range of binder concentrations and particle sizes. We also lead the industry with the tightest overall material specifications. Our tungsten carbide grades use cobalt binders ranging in
- Applications: Abrasive / Erosive Wear Protection, Ceramics / Glass Manufacturing, Chemical / Materials Processing, Corrosion Protection, Wear Parts / Tooling, Other
- Carbides / Carbide Ceramic Type: Tungsten Carbide (WC)
- Density: 12.87 to 13.11 g/cc
- MOR / Flexural Strength: 470000 psi
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Supplier: General Carbide Corporation
Description: Cobalt. Nickel. Tantalum. We offer them all. In fact, we produce more than 50 carbide grades in a wide range of binder concentrations and particle sizes. We also lead the industry with the tightest overall material specifications. Our tungsten carbide grades use cobalt binders ranging in
- Applications: Abrasive / Erosive Wear Protection, Ceramics / Glass Manufacturing, Chemical / Materials Processing, Corrosion Protection, Wear Parts / Tooling, Other
- Carbides / Carbide Ceramic Type: Tungsten Carbide (WC)
- Density: 14.53 to 14.65 g/cc
- MOR / Flexural Strength: 515000 psi
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Supplier: General Carbide Corporation
Description: Cobalt. Nickel. Tantalum. We offer them all. In fact, we produce more than 50 carbide grades in a wide range of binder concentrations and particle sizes. We also lead the industry with the tightest overall material specifications. Our tungsten carbide grades use cobalt binders ranging in
- Applications: Abrasive / Erosive Wear Protection, Ceramics / Glass Manufacturing, Chemical / Materials Processing, Corrosion Protection, Wear Parts / Tooling, Other
- Carbides / Carbide Ceramic Type: Tungsten Carbide (WC)
- Density: 14.15 to 14.27 g/cc
- MOR / Flexural Strength: 515000 psi
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Supplier: Linseis Inc.
Description: needs. The system can perform either static or dynamic measurements due to a built in force/frequency generator. Typical materials under investigation are: composite materials, glass, polymers, ceramics and metals. The variety of measuring systems allows sample geometries such as fibers
- Atmosphere Control: Yes
- Computer Interface: Yes
- Computer Interface Options: Other Computer Interface
- Programmable Heating Rate: Yes
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Supplier: Linseis Inc.
Description: needs. The system can perform either static or dynamic measurements due to a built in force/frequency generator. Typical materials under investigation are: composite materials, glass, polymers, ceramics and metals. The variety of measuring systems allows sample geometries such as fibers,
- Atmosphere Control: Yes
- Computer Interface: Yes
- Computer Interface Options: Other Computer Interface
- Programmable Heating Rate: Yes
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refractoriness to improve the high temperature performance of the material. Hot Isostatic Pressed Silicon Nitride Ceramics The mixture powder of silicon nitride and sintering aid is packaged in a metal or glass sheath, and sintered at high temperature through high-pressure gas (read more)
Browse Silicon Nitride and Silicon Nitride Ceramics Datasheets for Xiamen Unipretec Ceramic Technology Co., Ltd. -
block as big as 480*480mm. BN ceramic is a machinable ceramic that can be easily cut into plates, rods or machined into complex shapes (read more)
Browse Industrial Ceramic Materials Datasheets for Xiamen Unipretec Ceramic Technology Co., Ltd.
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Preparation of Germanate Glass by Vapor‐Phase Axial Deposition
Photograph of sintered glass rod =lo0 mm long and 17 mm in diameter.
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Active material for fiber core made by powder-in-tube method: subsequent homogenization by means of stack-and-draw technique
To improve the homogeneity of the glass, the sintered glass rods were drawn to a 1-mm diameter and cut into 300-mm- long pieces, which were then stacked in a silica tube (Fig. 3).
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Optical materials for active fibers made by powder-in-tube method
To improve the homogeneity of the glass, the sintered glass rods were drawn to a I mm diameter and cut into 300-mm-Iong pieces, which were then stacked in a silica tube (see Fig. 3).
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Knee Arthroscopy
The authors’ preferred technique used in cases of isolated repair has been to obtain 30–50 mL of blood from the patient s intravenous site and then sterilely transfer it to a glass container and stir it with a sintered glass rod .
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Isolation and characterization of sarcoplasmic reticulum from normal and dystrophic chicken
Membrane lipids were extracted19 and separated by thin-layer chromatography on silica- sintered glass rods (Chromarod-SII, Iatron Laboratories, Japan).
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Rapid changes in the phospholipid composition of gill membranes during thermal acclimation of the rainbow trout,Salmo gairdneri
… quently does not pack as compactly as PC in a lamellar phase (Hui et al. 1981); and 3), the devel- opment of instrumentation to quantitate lipids by flame ionization detection following thin layer chromatography on sintered glass rods (Ackman 1981), which has …
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Microwave processing of silica and doped-silica glasses from sol-gel
Figure 5: Photograph of fully dense, microwave sintered silica glass rods .
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Optical fiber amplifiers
Subsequently, cladding layers are deposited on the sintered core glass rod by the conventional VAD method and are .
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Hanford Works monthly report, May 1951
Dry air at 30°C was passel at a constant rate through a sintered - glass rod immersed in tritium oxide, thence over the skin of the animal and finally through a dry-ice trap where the oxide was held for re-use.
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Potassium transport in salt-stressed barley roots
All solutions were gently aerated with filtered air by means of sintered - glass rods .