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SEDL / STP / STP1309-EB
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STP1309
Thermal and Mechanical Test Methods and Behavior of Continuous-Fiber Ceramic Composites
Jenkins MG, Lara-Curzio E, Gonczy ST, Ashbaugh NE, Zawada LP
Pages: 310
Published: 1997
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STP 1309 gives you access to the latest research data, technical advances, and novel experimental techniques for the evaluation of continuous-fiber ceramic composites (CFCCs). This new volume also introduces the first published reports of applications of recently approved ASTM test methods for CFCCs, and contains significant information for many engineering applications where materials may be exposed to service cycles in various aggressive environments.Types of CFCCs examined include those processed with chemically infiltrated, polymer-impregnated, sintered, melt-infiltrated, or viscous glass-infiltrated matrices. 19 peer-reviewed papers focus on the following five categories: • Room-Temperature Test Results/Methods; • High-Temperature Test Results/Methods; • Nondestructive Characterization; • Modeling and Processing; • and Testing of Tubes.
Table of Contents
Summary
Jenkins M., Lara-Curzio E., Gonczy S., Ashbaugh N., Zawada L.
Influence of Test Mode, Test Rate, Specimen Geometry, and Bending on Tensile Mechanical Behavior of a Continuous Fiber Ceramic Composite
Piccola J., Jenkins M., Lara-Curzio E.
Effect of High Strain Rate on the Tensile Behavior of Nicalon™/Cas Continuous-Fiber Ceramic Composites.
Sánchez J., Puente I., Elizalde R., Martín A., Martínez J., Daniel A., Fuentes M., Beesley C.
Shear Strength of Continuous Fiber Ceramic Composites
Lara-Curzio E., Ferber M.
Unloading-Reloading Sequences and the Analysis of Mechanical Test Results for Continuous Fiber Ceramic Composites
Steen M., Vallés J.
The Effect of Hold Times on the Fatigue Behavior of an Oxide/Oxide Ceramic Matrix Composite
Zawada L., Lee S.
Subcritical Crack Growth in Ceramic Composites at High Temperature Measured Using Digital Image Correlation
Mumm D., Morris W., Dadkhah M., Cox B.
Tensile and Fatigue Behavior of a Silicon Carbide/Silicon Carbide Composite at 1300°C
Ünal &.
Stress-Temperature-Lifetime Response of Nicalon Fiber-Reinforced Silicon Carbide (SiC) Composites in Air
Lin H., Becher P.
Fatigue Crack Growth Behavior of a Woven HPZ/Silicon Carbide Ceramic Matrix Composite
Kramb V., John R.
Creep-Rupture Behavior of a Nicalon/SiC Composite
Verrilli M., Calomino A., Brewer D.
Retained Tensile Properties and Performance of an Oxide-Matrix Continuous-Fiber Ceramic Composite After Elevated-Temperature Exposure in Ambient Air
Munson K., Jenkins M.
Characterization of Damage Progression in Ceramic Matrix Composites Using an Integrated NDE/Mechanical Testing System
John R., Buchanan D., Stubbs D., Herzog J.
Infrared-Based NDE Methods for Determining Thermal Properties and Defects in Ceramic Composites
Ahuja S., Ellingson W., Steckenrider J., Koch S.
Measurement of Orthotropic Elastic Constants of Ceramic Matrix Composites from Impact Sound
Sakata M., Ohnabe H.
On the Optimal Design of Fiber-Reinforced Laminates
Kalamkarov A.
A Model for the Creep Response of Oxide-Oxide Ceramic Matrix Composites
Zuiker J.
Fatigue Life Modeling of Hybrid Ceramic Matrix Composites
Newaz G., Bonora N.
Secondary Processing Effects and Damage Mechanisms in Continuous-Fiber Ceramic Composites
Ramulu M., Eswara Prasad N., Malakondaiah G., Guo Z.
Design, Fabrication, and Burner Rig Testing of Three-Dimensional Woven Ceramic Matrix Composite Flanged Hoop Subelements
Wildman W., Khandelwal P.
Author Index
Subject Index
Committee: C28
Paper ID: STP1309-EB
DOI: 10.1520/STP1309-EB
ISBN-EB: 978-0-8031-5365-3
 ASTM International is a member of CrossRef.
0-8031-2033-8
978-0-8031-2033-4
STP1309-EB
STP 1309
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