Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials

A.R. Boccaccini,; P.A. Trusty,; M.C. Fredel,; A.M. Bevilacqua,

doi:10.1515/SECM.1995.4.3.185

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Startseite Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials

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Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials

A.R. Boccaccini, , P.A. Trusty, , M.C. Fredel, und A.M. Bevilacqua,

Veröffentlicht/Copyright: 1. September 1995

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Aus der Zeitschrift Science and Engineering of Composite Materials Band 4 Heft 3

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APA
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Boccaccini,, A.R., Trusty,, P.A., Fredel,, M.C. and Bevilacqua,, A.M.. "Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials" Science and Engineering of Composite Materials, vol. 4, no. 3, pp. 185-190. https://doi.org/10.1515/SECM.1995.4.3.185

Boccaccini,, A., Trusty,, P., Fredel,, M. & Bevilacqua,, A. (). Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials. Science and Engineering of Composite Materials, 4(3), 185-190. https://doi.org/10.1515/SECM.1995.4.3.185

Boccaccini,, A., Trusty,, P., Fredel,, M. and Bevilacqua,, A. () Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials. Science and Engineering of Composite Materials, Vol. 4 (Issue 3), pp. 185-190. https://doi.org/10.1515/SECM.1995.4.3.185

Boccaccini,, A.R., Trusty,, P.A., Fredel,, M.C. and Bevilacqua,, A.M.. "Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials" Science and Engineering of Composite Materials 4, no. 3 (): 185-190. https://doi.org/10.1515/SECM.1995.4.3.185

Boccaccini, A, Trusty, P, Fredel, M, Bevilacqua, A. Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials. Science and Engineering of Composite Materials. ;4(3): 185-190. https://doi.org/10.1515/SECM.1995.4.3.185

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Published Online: 1995-09

Artikel in diesem Heft

TABLE OF CONTENTS
Preforming Simulation of Thermoformable Fiber Mats Using Geometric Modeling Approach
Perceptions of Prepreg Tack for Manufacturability in Relation to Experimental Measures
Chemorheological Fundamental Aspects of the SMC Process
Mechanical Behavior of a Tightly Woven Carbon-Carbon Composite
Characterization of PEEK/Carbon Interface Using the Microbond Test: Influence of Thermal Stability of Sizing
Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials
Improvement of Wettability of SiC and Al2O3 Particles by Molten Aluminum
Effects of Moisture on Mechanical Properties of Glass-Filled Nylon-6,6

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Artikel in diesem Heft

TABLE OF CONTENTS
Preforming Simulation of Thermoformable Fiber Mats Using Geometric Modeling Approach
Perceptions of Prepreg Tack for Manufacturability in Relation to Experimental Measures
Chemorheological Fundamental Aspects of the SMC Process
Mechanical Behavior of a Tightly Woven Carbon-Carbon Composite
Characterization of PEEK/Carbon Interface Using the Microbond Test: Influence of Thermal Stability of Sizing
Effective Fracture Toughness of Brittle Matrix/Ductile Dispersion Composite Materials
Improvement of Wettability of SiC and Al2O3 Particles by Molten Aluminum
Effects of Moisture on Mechanical Properties of Glass-Filled Nylon-6,6