SIMULATION REINFORCED MICROCAPSULES BY CARBON NANOTUBES CONTAINED IN A SELF-HEALING CAPSULE-BASED MATERIALS

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ESKANDARI JAM JAFAR; KHANI FATEMEH; FARHADINIA MAHMOOD

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Journal: JOURNAL OF SIMULATION AND ANALYSIS OF NOVEL TECHNOLOGIES IN MECHANICAL ENGINEERING (JOURNAL OF SOLID MECHANICS IN ENGINEERING) Year:2016 | Volume:9 | Issue:3 Page(s): 491-508

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Title

SIMULATION REINFORCED MICROCAPSULES BY CARBON NANOTUBES CONTAINED IN A SELF-HEALING CAPSULE-BASED MATERIALS

Author(s)

ESKANDARI JAM JAFAR | KHANI FATEMEH | FARHADINIA MAHMOOD | Issue Writer Certificate

Keywords

SELF-HEALINGQ1

DENSITY FUNCTIONAL THEORYQ1

MICROCAPSULESQ1

CARBON NANOTUBEQ1

UREAFORMALDEHYDQ1

Abstract

Since the composite materials, especially with polymer matrix composite is vulnerable structures to injuries in the form of cracks and fractures Since the composite materials, especially. In recent years, new scientific efforts have been made to create an internal control unit, to be able to act autonomously in composite restorations. The theory is resilient Biologicallymatched resilient theory of shows, just as the deepest wounds cuts to heal itself, can claim to be all natural substances have the ability to repair its structure. In this paper, the study on the healing properties of the MICROCAPSULES contained in the composite capsular base is examined and to investigate the interaction between CARBON NANOTUBEs and energy from urea formaldehyde polymer as the base matrix resilient material base in the MICROCAPSULES contained in the capsule, the method theory density function. At first the effect of chirality and diameter of the nanotubes was investigated. After that different functional groups are placed on the nanotubes. Finally, the Young's modulus that is based on the strain energy in the elastic deformation range, was calculated.

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APA: Copy

ESKANDARI JAM, JAFAR, KHANI, FATEMEH, & FARHADINIA, MAHMOOD. (2016). SIMULATION REINFORCED MICROCAPSULES BY CARBON NANOTUBES CONTAINED IN A SELF-HEALING CAPSULE-BASED MATERIALS. JOURNAL OF SIMULATION AND ANALYSIS OF NOVEL TECHNOLOGIES IN MECHANICAL ENGINEERING (JOURNAL OF SOLID MECHANICS IN ENGINEERING), 9(3 ), 491-508. SID. https://sid.ir/paper/171358/en

Vancouver: Copy

ESKANDARI JAM JAFAR, KHANI FATEMEH, FARHADINIA MAHMOOD. SIMULATION REINFORCED MICROCAPSULES BY CARBON NANOTUBES CONTAINED IN A SELF-HEALING CAPSULE-BASED MATERIALS. JOURNAL OF SIMULATION AND ANALYSIS OF NOVEL TECHNOLOGIES IN MECHANICAL ENGINEERING (JOURNAL OF SOLID MECHANICS IN ENGINEERING)[Internet]. 2016;9(3 ):491-508. Available from: https://sid.ir/paper/171358/en

IEEE: Copy

JAFAR ESKANDARI JAM, FATEMEH KHANI, and MAHMOOD FARHADINIA, “SIMULATION REINFORCED MICROCAPSULES BY CARBON NANOTUBES CONTAINED IN A SELF-HEALING CAPSULE-BASED MATERIALS,” JOURNAL OF SIMULATION AND ANALYSIS OF NOVEL TECHNOLOGIES IN MECHANICAL ENGINEERING (JOURNAL OF SOLID MECHANICS IN ENGINEERING), vol. 9, no. 3 , pp. 491–508, 2016, [Online]. Available: https://sid.ir/paper/171358/en

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