Title

Research And Development On Advanced Graphite Materials. Volume XL - The Influence Of Fillers On The Pyrolysis And Bonding Characteristics Of Certain Synthetic Binders

Date

1964

Index Abstract

Contrails and DTIC

Photo Quality

Not Needed

Report Number

WADD TR 61-72 Volume 40

Creator

Boquist, C. W.

Putcher, R. E.

Griffith, J. S.

O'Neil, H. J.

Corporate Author

Armour Research Foundation, Illinois Institute Of Technology

Laboratory

AF Materials Laboratory

Extent

52

NTRL Accession Number

AD601832

Identifier

AD0602767

AD0602767

Access Rights

OTS

Distribution Classification

1

Contract

AF 33(616)-6915

DoD Project

7350

DoD Task

735002

DTIC Record Exists

Yes

Distribution Change Authority Correspondence

None

Report Availability

Full text available

Date Issued

1964-05

Abstract

The work described in this report presents the concluding part of a program concerned with the bonding and pyrolysis characteristics of two synthetic binders. The binders, alumina-condensed furfuryl alcohol resin and acenaphthylene pitch, were evaluated both by themselves and in conjunction with selected fillers to determine binder-filler interactions during pyrolysis and to develop a more complete understanding of the carbon bonding process.

In the discussion, the data accumulated from a number of techniques are presented and interpreted. Pyrolysis and physical property data for specimens molded with both the resin and pitch binders are also presented.

It has been found that some fillers are essentially unbondable by carbon, while others can materially alter binder pyrolysis.

Publisher

Wright-Patterson Air Force Base, OH : AF Materials Laboratory, Research and Technology Division, Air Force Systems Command

Distribution Conflict

No

Provenance

IIT

Lockheed Martin Missiles & Fire Control

Type

report

Subject

Plastics

Graphite

Pyrolysis

Binders

Oxides

Carbon

Chromatography

Thermal Properties

Ultraviolet Spectroscopy

Temperature

Gases

Degradation

Density

Elastic Properties

Viscosity

Polymers

Format

1 online resource