QualityStocks News - Integral Technologies and Subsidiary ElectriPlast Announce Availability of New Conductive Hybrid Plastic

Share Article

Moldable, conductive resin product reduces weight 50%-60% compared to traditional metals

QualityStocks would like to highlight Integral Technologies, Inc., a publicly traded company which, through its wholly owned operating subsidiary, Electriplast Corporation, engages in the discovery, development, commercialization, and licensing of electrically conductive hybrid plastics products used primarily as raw materials in the production of industrial, commercial, and consumer products and services worldwide. It operates in four segments; Aerospace & Defense, Transportation, Industrial Materials and Electronics. Integral’s core product line, ElectriPlast™, is a family of non-corrosive, electrically-conductive resin-based materials whose properties allow it to be molded into any of the infinite shapes and sizes associated with plastics and rubbers, but which is as electrically conductive as if it were metal while reducing component weight by 40 to 60%.

In the company’s news yesterday,

ElectriPlast Corp., a wholly owned subsidiary of Integral Technologies Inc., announced the availability of the ElectriPlast™- PBT/NiC, the company’s new electrically conductive, resin-based material designed to meet demanding electro-magnetic shielding, thermal, and mechanical properties for automotive, marine, consumer electronics, telecommunication, and aerospace applications.

The product is part of Integral’s family of ElectriPlast™ non-corrosive, electrically conductive resin-based material that can be molded into any shape and size, but remain as electrically conductive as if it were metal.

EP-PBT/NiC is resistant to solvents, is more than half as light as traditional components, and can withstand temperatures to 215°C.

“Our newest composite, EP- PBT/NiC, is a result of extensive research and development and many collaborative hours with our OEM clients,” Herbert Reedman, CEO of ElectriPlast stated in the press release. “The material is flame resistant, can withstand high temperatures and corrosive environments and provides superior shielding while outperforming aluminum with a 50 to 60% percent reduction in weight. This is a significant new product for us and further expands our comprehensive line of ElectriPlast™ conductive plastics.”

ElectriPlast™ is applicable to electrical connectors, electronics enclosures, sensors, motors, telecommunications, circuit breakers, fuse boxes, and mobile devices.

About QualityStocks

QualityStocks, based in Scottsdale, Arizona, is a free service that collects data from hundreds of Small-Cap and Micro-Cap online Investment Newsletters into one Daily Newsletter Report. QualityStocks is dedicated to assisting emerging public companies with their investor communication efforts and connecting subscribers with companies that have huge potential to succeed in the short and long-term future.

To sign up for The QualityStocks Daily Newsletter, please visit http://www.QualityStocks.net

To connect with QualityStocks via Facebook, please visit http://Facebook.com/QualityStocksPage

To connect with QualityStocks via Twitter, please visit http://Twitter.com/QualityStocks

Please read FULL disclaimer on the QualityStocks website: http://Disclaimer.QualityStocks.net

Forward-Looking Statement:

This release may contain forward-looking statements within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended. All forward-looking statements are inherently uncertain as they are based on current expectations and assumptions concerning future events or future performance of the company. Readers are cautioned not to place undue reliance on these forward-looking statements, which are only predictions and speak only as of the date hereof. Risks and uncertainties applicable to the company and its business could cause the company's actual results to differ materially from those indicated in any forward-looking statements.

Share article on social media or email:

View article via:

Pdf Print

Contact Author

Visit website