Skip to main content

9 Result(s)

within John C. Mauro Remove this filter Physics Remove this filter

and

  1. No Access

    Reference Work Entry In depth

    Mechanical and Compositional Design of High-Strength Corning Gorilla® Glass

    For complex glass compositions with more than eight constituent compounds, experimental measurements of the entire composition space are prohibitively expensive and time-consuming. In addition, for systems wit...

    Mehmet C. Onbaşlı, Adama Tandia, John C. Mauro in Handbook of Materials Modeling (2020)

  2. No Access

    Reference Work Entry In depth

    Fundamentals of Organic-Glass Adhesion

    In this work, we review recently developed methods for quantifying the fundamentals of organic-glass adhesion. This chapter will explore modeling methods, which serve to further develop the known scientific kn...

    Sushmit Goyal, Hyunhang Park, Sung Hoon Lee in Handbook of Materials Modeling (2020)

  3. No Access

    Reference Work Entry In depth

    Modeling of Glasses: An Overview

    Glass modeling includes unique advantages and challenges with respect to other fields of materials modeling owing to lack of long-range order, strong dependence on temperature and pressure history, statistical...

    Mehmet C. Onbaşlı, John C. Mauro in Handbook of Materials Modeling (2020)

  4. No Access

    Living Reference Work Entry In depth

    Modeling the Relaxation Behavior of Glasses for Display Applications

    Glass modeling includes unique advantages and challenges with respect to other fields of materials modeling owing to lack of long-range order, strong dependence on temperature and pressure history, statistical...

    Mehmet C. Onbaşlı, John C. Mauro in Handbook of Materials Modeling

  5. No Access

    Living Reference Work Entry In depth

    Mechanical and Compositional Design of High-Strength Corning Gorilla® Glass

    For complex glass compositions with more than eight constituent compounds, experimental measurements of the entire composition space are prohibitively expensive and time-consuming. In addition, for systems wit...

    Mehmet C. Onbaşlı, Adama Tandia, John C. Mauro in Handbook of Materials Modeling

  6. No Access

    Article

    High-speed camera study of Stage III crack propagation in chemically strengthened glass

    Thermally or chemically strengthened glass is more resistant to damage and breakage compared to non-strengthened glass. Both strengthening mechanisms are based on incorporation of a compressive stress profile ...

    Zhongzhi Tang, Matthew B. Abrams, John C. Mauro, Leon R. Zoeller in Applied Physics A (2014)

  7. No Access

    Article

    Principles of Pyrex® glass chemistry: structure–property relationships

    Pyrex® glass was one of the first commercial boroaluminosilicate glass compositions, selected in 1915 from thousands of compositions due to its ability to sustain mechanical and thermal shock. While the microscop...

    Morten M. Smedskjaer, Randall E. Youngman, John C. Mauro in Applied Physics A (2014)

  8. No Access

    Chapter

    Enthalpy landscapes and the glass transition

    A fundamental understanding of the glass transition is essential for enabling future breakthroughs in glass science and technology. In this paper, we review recent advances in the modeling of glass transition ...

    John C. Mauro, Roger J. Loucks, Arun K. Varshneya in Scientific Modeling and Simulations (2009)

  9. No Access

    Chapter

    Advanced modulation formats for fiber optic communication systems

    Choice of modulation format plays a critical role in the design and performance of fiber optic communication systems. We discuss the basic physics of electro-optic phase and amplitude modulation and derive mod...

    John C. Mauro, Srikanth Raghavan in Scientific Modeling and Simulations (2009)