Titlebook: Handbook of Damage Mechanics; Nano to Macro Scale George Z. Voyiadjis Reference work 2022Latest edition The Editor(s) (if applicable) and

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Damageability and Integrity of Materials: New Concepts of the Damage and Healing Fieldshe two damage and healing processes, as well as providing a consistent and systematic description for the concepts of damageability and material integrity. To that goal, the following four sections are presented: The logarithmic and exponential damage variables are introduced in section “A New Damag

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Damageability and Integrity of Materials: Unrecoverable Damage and Generalized Healing Modeldamage and healing as two fundamental processes in damage and healing mechanics. One introduces the new concept of unhealable damage or unrecoverable damage in section “Unhealable Damage and Nondamageable Integrity.” Also, the new concept of nondamageable integrity or permanent integrity is also int

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Mechanics of Self-Regenerating Materialsin characteristics of self-regenerating materials is that they are subject to a process of reintegration when the load is increased. When the load reaches a specific value the damage is reversed and full recovery of the material is achieved. This is accompanied by an increase in the elastic modulus

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Damage and Nonlinear Super Healing with Application to the Design of New Strengthening Theoryures. Recent investigations revealed that self-healing concept can be extended and used in the strengthening of materials. This theory was termed super healing. The idea is that further healing takes place as a strengthening mechanism after the material stiffness is recovered. This chapter presents

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Vibration Analysis of Cracked Microbeams by Using Finite Element Methodal theory and the background of the cracked microbeam is shown, which included the kinematic energy and the total potential energy of the cracked microbeam. Euler–Lagrange equation and the kinematic boundary conditions are obtained with the help of first variation of cracked microbeam. The accuracy,

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Predicting Damage Behavior of Self-Healing Sandwich Panels: Computational Modelingerials can be designed according to structural requirements. Nowadays, airplanes, ships, space vehicles, satellites, or wind turbines require lightweight structures with easy repairing. Self-healing materials present a good opportunity for these kinds of designs to increase the systems’ life span. D

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Problems of Deformation and Damage Studies of Additively Manufactured Regular Cellular Structuresnd high strength. They pose a new very prospective proposal as an engineering material for the demanding branches of industry, bio-engineering and civil engineering. In addition to high geometrical stiffness, they are characterized with high capacity of energy absorption, ability to deformation in a