Author Information

Erian A. Armanios

Affiliation: Georgia Institute of Technology

Division/Department: School of Aerospace Engineering

Address:
Atlanta, Georgia 30332-0150
United States

Email: erian.armanios@ae.gatech.edu

Other Names:
E. A. Armanios; Erian Armanios

Publications


A Comparison of Predictions From Probabilistic Crack Growth Models Inferred From Virkler's Data

JAI100574
Erian Armanios
Georgia Institute of Technology


Analysis of Behavior of Fibrous Composite Compression Specimens

STP32792S
Erian A. Armanios
Georgia Institute of Technology


Analysis of Unidirectional and Cross-Ply Laminates Under Torsion Loading

STP23719S
Erian A. Armanios
Georgia Institute of Technology


Damage Processes in a Quasi-Isotropic Composite Short Beam Under Three-Point Loading

CTR10233J
Erian A. Armanios
Georgia Institute of Technology


Delamination Analysis of Tapered Laminated Composites Under Tensile Loading

STP17726S
Erian A. Armanios
Georgia Institute of Technology


Design Analysis and Testing for Mixed-Mode and Mode II Interlaminar Fracture of Composites

STP35351S
Erian A. Armanios
Georgia Institute of Technology


Design and Evaluation of Three Methods for Testing Extension-Twist-Coupled Laminates

STP16553S
Erian A. Armanios
Georgia Institute of Technology


Design and Testing of Composite Laminates for Optimum Extension-Twist Coupling

STP12632S
Erian A. Armanios
Georgia Institute of Technology


Failure of a Titanium Metal-Matrix Composite Cylindrical Shell Under Internal Pressure

STP19920S
Erian A. Armanios
Georgia Institute of Technology


Fracture Analysis of Internally Delaminated Unsymmetric Laminated Composite Plates

STP19936S
Erian A. Armanios
Georgia Institute of Technology


Fracture Analysis of Transverse Crack-Tip and Free-Edge Delamination in Laminated Composites

STP17723S
Erian A. Armanios
Georgia Institute of Technology


Interlaminar Fracture Analysis of Composite Laminates Under Bending and Combined Bending and Extension

STP26129S
Erian A. Armanios
Georgia Institute of Technology


Interlaminar Fracture Analysis of Unsymmetrical Laminates

STP24739S
Erian A. Armanios
Georgia Institute of Technology


Interlaminar Fracture Processes in Resin Matrix Composites Under Static and Fatigue Loading

STP26144S
Erian A. Armanios
Georgia Institute of Technology


Quantitative Fractography of the Cracked Lap Shear Composite Specimen

STP14907S
Erian A. Armanios
Georgia Institute of Technology


Shear Deformation Analysis of the Energy Release Rate of Transverse Cracking in Laminated Composites

STP14016S
Erian A. Armanios
Georgia Institute of Technology


Strength of Quasi-Isotropic Co-Cured Composite Joints Under Quasi-static and Fatigue Loading

JAI100776
Erian Armanios
Georgia Institute of Technology


Sublaminate Analysis of Interlaminar Fracture in Composites: Part I—Analytical Model

CTR10166J
Erian A. Armanios
Georgia Institute of Technology


Sublaminate Analysis of Interlaminar Fracture in Composites: Part II—Applications

CTR10167J
E. A. Armanios
Georgia Institute of Technology


Understanding and Predicting Sublaminate Damage Mechanisms in Composite Structures

STP24114S
E. A. Armanios
Georgia Institute of Technology


StockCodeTitlePublished AsAffiliationPub Date by Most Viewed
JAI100574 A Comparison of Predictions From Probabilistic Crack Growth Models Inferred From Virkler's Data Erian Armanios Georgia Institute of Technology
STP32792S Analysis of Behavior of Fibrous Composite Compression Specimens Erian A. Armanios Georgia Institute of Technology 01 January 1985
STP23719S Analysis of Unidirectional and Cross-Ply Laminates Under Torsion Loading Erian A. Armanios Georgia Institute of Technology 01 January 1992
CTR10233J Damage Processes in a Quasi-Isotropic Composite Short Beam Under Three-Point Loading Erian A. Armanios Georgia Institute of Technology
STP17726S Delamination Analysis of Tapered Laminated Composites Under Tensile Loading Erian A. Armanios Georgia Institute of Technology 01 January 1991
STP35351S Design Analysis and Testing for Mixed-Mode and Mode II Interlaminar Fracture of Composites Erian A. Armanios Georgia Institute of Technology 01 January 1986
STP16553S Design and Evaluation of Three Methods for Testing Extension-Twist-Coupled Laminates Erian A. Armanios Georgia Institute of Technology 01 January 1996
STP12632S Design and Testing of Composite Laminates for Optimum Extension-Twist Coupling Erian A. Armanios Georgia Institute of Technology 01 January 1993
STP19920S Failure of a Titanium Metal-Matrix Composite Cylindrical Shell Under Internal Pressure Erian A. Armanios Georgia Institute of Technology 01 January 1997
STP19936S Fracture Analysis of Internally Delaminated Unsymmetric Laminated Composite Plates Erian A. Armanios Georgia Institute of Technology 01 January 1997
STP17723S Fracture Analysis of Transverse Crack-Tip and Free-Edge Delamination in Laminated Composites Erian A. Armanios Georgia Institute of Technology 01 January 1991
STP26129S Interlaminar Fracture Analysis of Composite Laminates Under Bending and Combined Bending and Extension Erian A. Armanios Georgia Institute of Technology 01 January 1988
STP24739S Interlaminar Fracture Analysis of Unsymmetrical Laminates Erian A. Armanios Georgia Institute of Technology 01 January 1993
STP26144S Interlaminar Fracture Processes in Resin Matrix Composites Under Static and Fatigue Loading Erian A. Armanios Georgia Institute of Technology 01 January 1988
STP14907S Quantitative Fractography of the Cracked Lap Shear Composite Specimen Erian A. Armanios Georgia Institute of Technology 01 January 1993
STP14016S Shear Deformation Analysis of the Energy Release Rate of Transverse Cracking in Laminated Composites Erian A. Armanios Georgia Institute of Technology 01 January 1995
JAI100776 Strength of Quasi-Isotropic Co-Cured Composite Joints Under Quasi-static and Fatigue Loading Erian Armanios Georgia Institute of Technology 08 May 2007
CTR10166J Sublaminate Analysis of Interlaminar Fracture in Composites: Part I—Analytical Model Erian A. Armanios Georgia Institute of Technology
CTR10167J Sublaminate Analysis of Interlaminar Fracture in Composites: Part II—Applications E. A. Armanios Georgia Institute of Technology
STP24114S Understanding and Predicting Sublaminate Damage Mechanisms in Composite Structures E. A. Armanios Georgia Institute of Technology 01 January 1990