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STP873
High Modulus Fiber Composites in Ground Transportation and High Volume Applications

Wilson DW
Pages: 177
Published: 1985

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Focuses on the relationship between processing, materials microstructure, and the properties of the resulting high volume composite materials. Includes studies of the microstructural variability of sheet molding compounds, fiber orientation, thermoplastics, fatigue damage, graphite-epoxy composites, vicoelastic behavior, and thermosetting resins.



Table of Contents

Introduction
Wilson D.

Summary
Wilson D.

The Influence of Microstructural Variability upon the Scatter in Mechanical Properties of R25 Sheet Molding Compound
Shirrell C.

Use of X-radiographic Tracers to Measure Fiber Orientation in Short Fiber Composites
Denton D., Munson-McGee S.

Fatigue Crack Growth and Lifetime Trends in Injection Molded Reinforced Thermoplastics
Li C., Mandell J., McGarry F.

Analysis of Flexural Fatigue Damage in Unidirectional Composites
Newaz G.

Axial Fatigue of SMC-R65 Sheet Molding Compound in Liquid Environments
Hoa S., Ngo A., Sankar T.

Characterization of Bolted Joint Behavior in SMC-R50
Wilson D.

Thermoelastic Response of the Cylindrically Orthotropic Disk — Numerical and Experimental Evaluation
Gillespie J., Pipes R.

Hygrothermal Degradation of Sheet Molding Compounds
Hahn H., Hosangadi A.

Resin Flow During Autoclave Cure of Graphite-Epoxy Composites
Freeman W., Loos A.

Viscoelastic Response of SMC-R50 Under Different Thermomechanical Conditions
Hiel C., Morris D., Yen S.

Using ASTM D 4065-82 for Predicting Processability and Properties
Driscoll S.

Index


Committee: D30
Paper ID: STP873-EB
DOI: 10.1520/STP873-EB
ISBN-EB: 978-0-8031-4938-0

ASTM International is a member of CrossRef.
0-8031-0415-4
978-0-8031-0415-0
STP873-EB