Volume 5, Issue 6 (Suppl)

J Mat. Sci.

ISSN: 2321-6212

Advanced Materials 2017

October 26-28, 2017

Page 37

Notes:

conference

series

.com

OCTOBER 26-28, 2017 OSAKA, JAPAN

13

TH

INTERNATIONAL CONFERENCE ON

Advanced Materials and Nanotechnology

Polymer-derived ceramics for space applications

I

norganic and organometallic polymers capable of giving ceramics in good yield (at least 50%) when subjected to pyrolysis

are referred to as preceramic polymers. There are several advantages in using preceramic polymers for obtaining ceramics.

Using conventional ceramic processing techniques, it is difficult to get non-oxide ceramic coatings, continuous ceramic fibers

and ceramic films. Preceramic polymers can be processed using conventional polymer processing techniques into coatings,

films, fibers and composites followed by pyrolysis and sintering to get ceramic coatings, ceramic films, ceramic fibers and

Ceramic Matrix Composites (CMCs). Unlike the conventional ceramic processing routes, preceramic route invariably gives

nanoceramics and hence, it is easy to machine polymer-derived ceramic components. Yet another advantage is that conversion

of polymers to ceramics takes place at relatively low temperatures (1200-1500 °C) when compared to conventional processes

(~2000 °C). Keeping in view of the potential space applications, the research work on polymer-derived ceramics was initiated

in the Space Centre in 1987 and over the years, different types of preceramic polymers such as polycarbosilanes, polysial

hydrocarbons, polyborosiloxanes and poly (metalloborosiloxane) have been synthesized and their conversion to ceramics have

been studied. These precursors have been evaluated for the following space applications: (1) Oxidation resistant coatings for

C/C composites for reentry and reusable launch vehicles, (2) matrix resins for Ceramic Matrix Composites and lightweight

ceramics, candidate materials for advanced thermos-structural/thermal protection materials for reusable launch vehicles, (3)

thermal barrier coatings, (4) ceramic adhesives and (5) atomic oxygen resistant coatings for low earth orbit space structures.

Biography

S Packirisamy has obtained his PhD from Indian Institute of Technology Kharagpur, India. He initiated the work on polymer-derived ceramics in the Vikram Sarabhai

Space Centre, Indian Space Research Organization and continued to contribute in this area until his superannuation as Deputy Director. He was UNESCO

Fellow, Tokyo Institute of Technology, Tokyo, Research Associate, Case Western Reserve University, Cleveland and Visiting Scientist, Michigan Molecular Institute,

Midland. Presently, he is a Professor of Chemistry at Sharda University, India. He has 14 patents, 45 publications in international journals and 4 book chapters to

his credit.

spackirisamy@yahoo.com

S Packirisamy

Sharda University, India

S Packirisamy, J Mat. Sci. 2017, 5:6

DOI: 10.4172/2321-6212-C1-007