University 油漆 Consult/Material Evaluation for Nano-based Additive
SITUATION: A large public university was seeking an independent 油漆 expert opinion of possible applications for a new water based nano-based conductive additive for 油漆.
行动: The university contracted Chemical Dynamics to perform the study.
结果: After extensive evaluations, Chemical Dynamics was able to demonstrate that the nano-based material demonstrates the ability to replace heavy metal chrome based pigment for corrosion inhibition purposes. A second utility of the technology was determined to be as a thickener for water born 涂层s.
A global company with multibillion dollar sales required an independent 油漆 raw material evaluation from a 油漆 expert of the performance and application potential of a new fluoropolymer 树脂 that they had developed.
Due to the resident 涂层 expertise in fluoropolymer 涂层s, the supplier contracted Chemical Dynamics to provide an independent evaluation of this new 树脂 chemistry. Chemical Dynamics completed the evaluation and identified multiple new applications for the fluoropolymer 树脂 chemistry.
Some portions of the automobile must be coated with 油漆 that offers a variety of unique long life performance attributes including resistance to harsh chemicals such as fuels, oils and hydraulic fluid, and also offer resistance to stone chipping, road salts and moisture in a variety of forms. 最后, such 涂层s must also be conductive so the build-up of static electricity does not cause volatile materials to ignite.
Since there was no such 涂层 on the market, especially a water born 涂层, Chemical Dynamics developed and 专利ed this 涂层 for use on fuel 填料 管s, fuel lines and other components of cars requiring these properties. This technology named Infinicoat was one of a handful of PACE Award finalists among several hundred contestants in recognition of the value and innovation that this product brought to the automotive industry. Infinicoat is currently used on multiple domestic model cars.