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3414

A Piezo sensitive resistor with a high gauge factor designed for strain gauge and pressure applications. This material can be fired at 850°C.

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4530

An alumina dielectric that is designed for use as an insulating layer in planar oxygen sensors. This material is co-fired with zirconia tape and platinum between 1,450°C and 1,500°C.

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4569

A porous zirconia paste that is designed for use in as a protective overcoat for platinum electrodes in planar oxygen sensors. This material is co-fired with zirconia tape and platinum between 1,450°C and 1,500°C.

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4492

An alumina dielectric that is designed for use as an insulating layer in planar oxygen sensors. This material is co-fired with zirconia tape and platinum between 1,450°C and 1,500°C.

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4441

A fugitive paste that is designed to form channels in multi-layer tape structures. This material can also be used to increase post fired porosity when mixed with other inks.

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9627

A RoHS compliant silver palladium paste designed to for use as a current collector for solid oxide fuel cells. This material is post fired on zirconia at 850°C.

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5545-LS

A fritted platinum conductor designed for use as a heating element. This material is the thin printing version of 5545 and can be fired between 850°C and 1300°C alumina or zirconia to a thickness of 4 microns.

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5559-B

A platinum paste designed to be co-fired with high temperature ceramic tape to create a high resistance heater. This material is co-fired with alumina or zirconia between 1450°C to 1550°C.

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5575

A platinum paste designed to be co-fired with high temperature ceramic tape to create a via conductors for planar oxygen sensors. This material is co-fired with alumina or zirconia between 1450°C and 1550°C.

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5570

A porous platinum paste designed to be co-fired with zirconia ceramic tape to create the inner and outer electrode in planar oxygen sensors. This material is co-fired with zirconia between 1450°C and 1550°C.

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5571

A platinum paste designed to be co-fired with high temperature ceramic tape to create a resistance heater in planar oxygen sensors. This material is co-fired with alumina or zirconia between 1450°C and 1550°C.

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5573

A platinum paste designed to be the outer electrode in conical oxygen sensors. This material is fired between 1250°C and 1500°C on partially stabilized zirconia substrates.

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5574

A platinum paste designed to be co-fired with high temperature ceramic tape to create a conductor leads for planar oxygen sensors. This material is co-fired with alumina or zirconia between 1450°C and 1550°C.

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5545

A fritted platinum conductor designed for use as a resistance heating element. This material can be fired between 850°C and 1300°C on alumina or zirconia.

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6642

A RoHS compliant palladium paste designed for use on partially stabilized zirconia (PSZ) for use in oxygen sensors. This material is fired between 1250°C and 1450°C.

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5542

A fritless platinum paste designed to be the inner and outer electrodes in conical oxygen sensors. This material is fired between 950°C and 1300°C on partially stabilized zirconia substrates.

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4421-A

A cathode paste that contains lanthanum strontium cobalt ferrite (LSCF). This material is designed for use in SOFC applications.

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4480

A ceramic interconnect paste that contains lanthanum calcium chromite and is designed for use in SOFC applications.

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4481

An electrolyte paste containing 8 mol% Yttria stabilized zirconia. This material is fired on a nickel oxide anode for use in SOFC applications.

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4482

A ceramic interconnect paste that contains lanthanum strontium cobalt chromite and is designed for use in SOFC applications.

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4422

A cathode paste that contains a 50/50 ratio of Lanthanum Strontium Manganite (LSM) and 8mol % yttria stabilized zirconia (YSZ). This material is designed for use in SOFC applications.

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4420

A cathode paste containing lanthanum strontium manganese oxide (LSM). This material is designed for use in SOFC applications.

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4416

A functional anode paste that contains a 65/35 ratio of nickel oxide and 8mol % yttria stabilized zirconia (YSZ). This material is designed for use in SOFC applications.

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4412

A functional anode paste that contains a 50/50 ratio of nickel oxide and 8mol % yttria stabilized zirconia (YSZ). This material is designed for use in SOFC applications.

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4343

An electrolyte paste containing 20 mol % gadolinia doped ceria (GDC). This material is fired on a nickel oxide anode between 1200°C and 1300°C for use in SOFC applications.

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4410

A nickel oxide anode paste. This material is fired on zirconia for use in SOFC applications

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4411

A nickel oxide anode paste containing a pore-former to enhance post-fired porosity. This material is fired on zirconia for use in SOFC applications

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42421

A high temperature co-fired ceramic (HTCC) that is a blend of nickel oxide and yttria stabilized zirconia. This material is co-fired with nickel oxide support anode and zirconia electrolyte to form the function anode in an anode supported solid oxide fuel cells (SOFC).

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49000

A fugitive tape that is designed to be co-fired with zirconia or alumina green tape for use in planar oxygen sensors. This material is designed to be burned out in the temperature range of 600°C to 700°C.

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49010

A monoclinic zirconia for use as a release liner between green ceramic parts and kiln furniture during firing process.

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42401

A high temperature co-fired ceramic (HTCC) fully stabilized zirconia (8 mol.% yttria) tape that is 125 microns in thickness. This material is fired between 1450°C and 1550°C to form the electrolyte in an electrolyte supported solid oxide fuel cells (SOFC).

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42420

A high temperature co-fired ceramic (HTCC) that is a blend of nickel oxide and yttria stabilized zirconia. This material is co-fired with nickel oxide support anode and zirconia electrolyte to form the function anode in an anode supported solid oxide fuel cells (SOFC).

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42000

A high temperature co-fired ceramic (HTCC) partially stabilized zirconia (3 mol.% yttria) tape that is used in pressure sensors. This material is fired between 1400°C and 1500°C to give a dense white colored ceramic.

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42020

A high temperature co-fired ceramic (HTCC) partially stabilized zirconia (5 mol.% yttria) tape that is used in planar oxygen sensors. The material is co-fired with platinum pastes between 1450°C and 1550°C to yield a dense white colored ceramic.

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42400

A high temperature co-fired ceramic (HTCC) fully stabilized zirconia (8 mol.% yttria) tape that is 15 microns in thickness. This material is co-fired with nickel oxide tapes between 1450°C and 1550°C to form the electrolyte in an anode supported solid oxide fuel cells (SOFC).

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42510-X

A porous zirconia plate designed for use a setter or cover plate in firing green ceramic parts. The plates have through hole porosity to allow uniform burnout of binders.

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