The solvent resistance of aromatic polymer composites

Randles, Steven James

January 1990

The diffusion rate of a large range of solvents into carbon fibre reinforced PEEK (APC-2) has been measured to discover the effect of the physical characteristics of the solvent. Three dimensional graphs have been plotted which correlate four parameters (solvent size, shape, hydrogen bonding capacity and solubility parameter) to solvent uptake. In the composite the effects of: thickness, lay-up, background water content and strain level on solvent diffusion have been assessed. The effect of composite thickness can be predicted using the film thickness scaling law provided the diffusion is Fickian. The effect of background water content is small, tending to make the diffusion profile two-stage. The effect of lay-up has been shown to have a major Affect on diffusion rate, unidirectional lay-ups having a much slower diffusion rate. Several theories have been postulated to explain this behaviour. The effects of stress on diffusion rate can be predicted by free volume models, provided that the stress/strain is kept below a certain critical level. It has been shown that the damage caused by a solvent, provided the stress does not exceed a critical value, is dependent on the amount of solvent in the matrix. This is due to plasticisation effects. Attempts to model this behaviour using free volume models have proved successful. Stress has been shown to enhance environmental attack. With certain solvents, above a critical stress or strain, environmental stress cracking occurs, leading to a considerable reduction in mechanical properties. Photographic evidence shows that cracking is initiated at stress concentrators within the matrix. Crack propagation is entirely matrix related and independent of spherulite boundaries. Overall, APC-2 has been shown to possess excellent environmental resistance when used in aerospace applications.

668.4

Experimental study of anisotropy in injection molded thermoplastic parts

Bakerdjian, Zaven

January 1978

No description available.

Injection molding of plastics.

Anisotropy.

Thermoplastics.

Mechanical properties and orientation in short fibre composites.

Sudlow, Michael John.

January 1972

No description available.

Fibrous composites

Thermoplastics

Reinforced plastics

A novel coextrusion process for the manufacture of short fiber-reinforced thermoplastic pipe /

Doshi, Shailesh R.

January 1986

No description available.

Pipe, Plastic.

Thermoplastics

Reinforced plastics

Phase segregation study of thermoplastic polyurethanes

Mace, Tamara Lee,

January 2003

Thesis (Ph. D.)--School of Textile and Fiber Engineering, Georgia Institute of Technology, 2004. Directed by Haskell Beckham. / Vita. Includes bibliographical references (leaves A1-A2).

The effect of cold rolling on the formability of thermoplastics /

Lee, Yew-wing.

January 1987

Thesis--M. Phil., University of Hong Kong, 1987.

Mechanical properties and orientation in short fibre composites.

Sudlow, Michael John.

January 1972

No description available.

Thermoplastics

Reinforced plastics

Fibrous composites

Experimental study of anisotropy in injection molded thermoplastic parts

Bakerdjian, Zaven

January 1978

No description available.

Anisotropy.

Injection molding of plastics.

Thermoplastics.

Study of polyarylene ether and its application in isotropically conductive adhesive

Liong, Silvia

08 1900

No description available.

Solder and soldering

Electronic packaging

Thermoplastics

A novel coextrusion process for the manufacture of short fiber-reinforced thermoplastic pipe /

Doshi, Shailesh R.

January 1986

No description available.

Pipe, Plastic.

Thermoplastics

Reinforced plastics