Accession Number : ADA293852

Title :   Design and Processing of Materials by Biomimicking. Sections 1. Publications.

Descriptive Note : Final 3rd year rept. 1 Jun 91-Sep 94,

Corporate Author : WASHINGTON UNIV SEATTLE DEPT OF MATERIALS SCIENCE AND ENGINEERING

Personal Author(s) : Sarikaya, Mehmet ; Staley, James T.

PDF Url : ADA293852

Report Date : SEP 1994

Pagination or Media Count : 88

Abstract : The goal of this research has been to find dispersants for ceramic processing applications. The polyelectrolytes currently in use in the industry are synthesized from toxic precursors which present health hazards to workers. We have investigated polyelectrolytes produced from natural sources such as bacteria and kelp, as well as some polymers which have been produced synthetically. The polyelectrolytes which we have investigated include polysaccharides (alginate and dextran) and polypeptides (polyglutamic acid and polyaspartic acid). Some have been obtained from cultures of bacteria grown in our laboratories, others have been obtained from chemical supply houses. In addition, we have investigated the feasibility of using an in situ process by which we incubate the polymer-producing bacteria in the presence of ceramic powders. In this system, polymer adsorbs to the powder in a high affinity state, allowing subsequent washing to remove the bacterial cells, while retaining the adsorbed polymer. jg

Descriptors :   *CERAMIC MATERIALS, HAZARDS, ADSORPTION, BACTERIA, CELLS, DEXTRAN, DISPERSANTS, HEALTH, KELP, MATERIALS, NATURAL RESOURCES, PEPTIDES, POLYELECTROLYTES, POLYMERS, POLYSACCHARIDES, POWDERS, PRECURSORS, PROCESSING, TOXICITY, COMPOSITE MATERIALS, ASPARTIC ACID, GLUTAMIC ACID.

Subject Categories : Polymer Chemistry
      Biology
      Organic Chemistry
      Ceramics, Refractories and Glass
      Biomedical Instrumentation and Bioengineering

Distribution Statement : APPROVED FOR PUBLIC RELEASE