P. M. Puckett scite author profile

P. M. Puckett

4Publications

107Citation Statements Received

36Citation Statements Given

How they've been cited

103

102

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Affiliations

Freeport Historical Society, Freeport-McMoRan (United States), Dow Chemical (United States)

Publications

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Numerical and experimental analysis of resin flow and cure in resin injection pultrusion (RIP)

Ding

Yang

et al. 2000

Polymer Composites

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This work presents the results of modeling, numerical simulation, and experimental study of resin flow and heat transfer in the resin injection pultrusion (RIP) process. A control volume/finite element method (CV/FEM) was used to solve the flow governing equations, together with heat transfer and chemical reaction models. Resin viscosity, degree of cure, and fiber stack compressibility and permeability were measured in order to understand their influences on the process. An analytical flow model has also been develped based on the one‐dimensional flow approximation for the resin flow in the injection die. A high‐pressure small‐taper injection die was tested with different line speeds. Experimental data were used to verify the simulation results and the analytical solutions.

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Structure and property relationships in model diglycidyl ether of bisphenol-a and diglycidyl ether of tetramethyl bisphenol-a epoxy systems. I. Mechanical property characterizations

Sue

Puckett

Bertram

et al. 1999

J. Polym. Sci. B Polym. Phys.

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Characterization and promotion of dilatation bands in toughenable thermosetting resins

Sue

Bertram

Garcia‐Meitin

et al. 1995

J Polym Sci B Polym Phys

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Formation of dilatation bands has been found in a series of moderately crosslinked thermosets with molecular weights between crosslinks, Mc, ranging from 560 to 1000 g/mole. These dilatation bands, although they do not show distinct craze fibrils inside the band, do behave mechanically like the well‐known crazing phenomenon observed in polystyrene. Although the cause for the formation of dilatation bands is still largely unknown, the occurrence of the craze‐like fracture phenomenon (dilatation bands) is found to be strongly influenced by the stress state the matrix experiences, by the type of loading applied to the specimen, and by the type/size of toughener particles incorporated in the matrix. The tendency for dilatation band formation in engineering thermosets can be greatly enhanced by the use of craze‐prone toughener particles, such as nylon particles. The toughening effect via these newly observed dilatation bands is found to be quite impressive, and in some cases, can approach that via the shear‐banding process. The potential significance of the present finding for a better design of toughened thermosets for structural applications is discussed. ©1995 John Wiley & Sons, Inc.

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The Network Structure of Epoxy Systems and Its Relationship to Toughness and Toughenability

Sue

Puckett

Bertram

et al. 2000

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P. M. Puckett

Numerical and experimental analysis of resin flow and cure in resin injection pultrusion (RIP)

Structure and property relationships in model diglycidyl ether of bisphenol-a and diglycidyl ether of tetramethyl bisphenol-a epoxy systems. I. Mechanical property characterizations

Characterization and promotion of dilatation bands in toughenable thermosetting resins

The Network Structure of Epoxy Systems and Its Relationship to Toughness and Toughenability

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