Ali S. Argon

Mechanical Engineering Massachusetts Institute of Technology, Cambridge, MA, United States 
plasticity, toughness in polymers, ceramic composite coatings
"Ali S. Argon"

Mean distance: 12.18


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Egon Orowan grad student 1956 MIT
 (Investigations of the strength and anelasticity of glass)


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Michael Demkowicz grad student MIT (E-Tree)
I-Wei Chen grad student 1980 MIT (E-Tree)
Mary Cunningham Boyce grad student 1984 MIT
Chris E. Schwier grad student 1984 MIT (Chemistry Tree)
Tresa M. Pollock grad student 1989 MIT
Cary  A. Veith grad student 1989 MIT (Chemistry Tree)
Vijay Gupta grad student 1990 MIT (E-Tree)
Anuj Bellare grad student 1992 MIT (Chemistry Tree)
Paul F. Nealey grad student 1994 MIT (Chemistry Tree)
Uchu Mukai grad student 1995 MIT (Chemistry Tree)
Orhun K. Muratoğlu grad student 1995 MIT (Chemistry Tree)
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Argon AS. (2013) Strain avalanches in plasticity Philosophical Magazine. 93: 3795-3808
Argon AS. (2011) Craze initiation in glassy polymers - Revisited Polymer. 52: 2319-2327
Veprek S, Zhang RF, Veprek-Heijman MGJ, et al. (2010) Search for ultrahard materials and recent progress in the understanding of hardness enhancement and properties of nanocomposites Solid State Phenomena. 159: 1-10
Veprek S, Argon AS, Zhang RF. (2010) Design of ultrahard materials: Go nano! Philosophical Magazine. 90: 4104-4115
Veprek S, Zhang RF, Veprek-Heijman MGJ, et al. (2010) Superhard nanocomposites: Origin of hardness enhancement, properties and applications Surface and Coatings Technology. 204: 1898-1906
Zhang RF, Argon AS, Veprek S. (2009) Friedel oscillations are limiting the strength of superhard nanocomposites and heterostructures. Physical Review Letters. 102: 015503
Zhang RF, Argon AS, Veprek S. (2009) Electronic structure, stability, and mechanism of the decohesion and shear of interfaces in superhard nanocomposites and heterostructures Physical Review B - Condensed Matter and Materials Physics. 79
Veprek-Heijman MGJ, Veprek RG, Argon AS, et al. (2009) Non-linear finite element constitutive modeling of indentation into super- and ultrahard materials: The plastic deformation of the diamond tip and the ratio of hardness to tensile yield strength of super- and ultrahard nanocomposites Surface and Coatings Technology. 203: 3385-3391
Argon AS, Demkowicz MJ. (2008) What can plasticity of amorphous silicon tell us about plasticity of metallic glasses? Metallurgical and Materials Transactions a: Physical Metallurgy and Materials Science. 39: 1762-1778
Argon AS, Bartczak Z, Cohen RE, et al. (2008) Deformation Induced Texture Development in Polyethylene: Computer Simulation and Experiments Oriented Polymer Materials. 265-301
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