Supplier: Rieke Metals, Inc.
Description: poly(3-decylthiophene-2,5-diyl ),regiorandom
- Material Type / Grade: Thermoplastic
- Chemical / Polymer System Type: Specialty / Other
- Filler Material: Unfilled
- Resins & Compounds: Liquid
Supplier: OMEGA Engineering, Inc.
Description: OMEGABOND epoxy and OMEGATHERM thermal conducting paste are easy to use epoxies and silicone products. They are specially formulated for permanent bonding of thermocouples, thin film RTDs, thermistors and other temperature sensors, to most surfaces metals, ceramics, glass, plastics, paper products
- Substrate / Material Compatibility: Ceramic / Glass, Concrete / Masonry, Metal, Paper / Paperboard, Plastic, Rubber / Elastomer, Wood / Wood Product
- Cure Type / Technology: Two Component System
- Features: Electrical Insulating / Dielectric, Thermal / Heat Conductive
- Use Temperature: 221 to 500 F
Supplier: Knight Optical Ltd.
Description: White Float Windows-ITO coated one side-40mmdia ITO coated windows are similar to the other Float glass windows but they have an electrically conducting coating applied. These ITO coated windows “Indium Tin Oxide” are vacuum coated to 20ohm. ITO windows can be useful for display
- Window Shape: Circular
- Diameter, Square Side, or Rectangular Length: 1.57 inch
- Thickness: 0.0433 inch
- Materials: Specialty / Other
Technical Courses and Programs - Design, Analysis & Fabrication of Composite Structures & Machine Applications -- PD567Supplier: ASME Training & Development
Description: that can be varied from high to near zero. Electrically conducting and insulating materials are available. Composites and other advanced materials, some with ultra-high thermal conductivities, are now used in thermal management applications, such as motor cover/heat sinks, servers, notebook computers
- Type: Course
- Modality: Off Site (Conference / Seminar)
- Industry: Building / Construction, Nuclear / Utility
- Technology / Subject: Design / Engineering Methods (ESDU, DFx, etc.)
Standards and Technical Documents - Guidelines for Electrically Conductive Surface Mount Adhesives -- 3406
Description: DESCRIPTION IPC-3406 offers guidelines for selecting electrically conductive adhesives for use in electronics manufacturing as solder alternatives. The process discussion attempts to stay within the bounds of the existing solder assembly infrastructure. Both major types of adhesives, isotropic
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Applications of Metaheuristics in Process Engineering
12 Molecular Engineering of Electrically Conducting Polymers Using Artificial Intelligence Methods .........................
Polymer Blends Handbook
1178 17.5 Electrically conductive polymer blends . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Electrically conducting organometallic polymers
Following the discovery of polyacetylene, the cofacially joined metallophthalocyanine polymers emerged as a new class of electrically conducting polymers .
Selected Topics in Advanced Solid State and Fibre Optic Sensors
The following topics are dealt with: optical measurement systems; fibre optic sensors; dielectrophoretic sensors; electrically conducting polymer sensors; chemical sensors; microbiological applications; and thin film phthalocyanine gas sensors.
ELECTRICALLY CONDUCTING POLYMERS FOR NON-INVASIVE CONTROL OF MAAEMIALIANCELL BEHAVIOR .
Encyclopedia of Polymeric Nanomaterials
Electrically Conducting Polymers .
Graphene-Based Polymer Nanocomposites in Electronics
Graphene dramatically improves the properties of polymer based composites at a very low loading and its most fascinating property is the very high surface conductivity leading to the formation of numerous electrically conductive polymer composites.
Application of conductive polymers, scaffolds and electrical stimulation for nerve tissue engineering
Electrical stimulation has been shown to enhance the nerve regeneration process and this consequently makes the use of electrically conductive polymers very attractive for the construction of scaffolds for nerve tissue engineering.
Strengthened electrically conductive composite materials based on ultra-high-molecular-weight polyethylene reactor powder and nanosized carbon fillers
Strengthened oriented electrically conductive polymer composites possessing high tensile strength and conductivity values are obtained by the compaction of mechanical mixtures of the polymer and fillers powders, followed by the uniaxial deformation of materials under homogeneous shear conditions.