Finite element analysis of cracks due to reinforcement bars corrosion in RC structures

اختصاصی از کوشا فایل Finite element analysis of cracks due to reinforcement bars corrosion in RC structures دانلود با لینک مستقیم و پرسرعت .

مقاله با عنوان: Finite element analysis of cracks due to reinforcement bars corrosion in RC structures
نویسندگان: Mohammad Javad Mirzaee , Farshid Jandaghi Alaee , Mohammad Hajsadeghi
محل انتشار: هشتمین کنگره ملی مهندسی عمران - دانشگاه صنعتی نوشیروانی بابل - 17 و 18 اردیبهشت 93
محور: سازه های بتنی
فرمت فایل: PDF و شامل 5 صفحه به انگلیسی می باشد.

چکیده:
Concrete cover cracking due to corrosion of steel reinforcing bars is one of the main causes of the reinforced concrete (RC) structures deterioration, exposed to marine environments. Depending on the oxidation level of rebar, corrosion may result in expansion of reinforcement bars. This expansion may causes the through thickness cracking of the cover concrete; which could indicate the loss of service life structures due to corrosion. In this paper, the parameters which influence the concrete cover cracking have been investigated via finite element method (FEM) for which ABAQUS software was employed. The results indicated that the most important factor in concrete cover cracking is cover thickness to rebar diameter ratio C/d

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رساله دکتری با عنوان: Dynamic Finite Element Modeling and Analysis of Blast-resistant Sandwich Structures

اختصاصی از کوشا فایل رساله دکتری با عنوان: Dynamic Finite Element Modeling and Analysis of Blast-resistant Sandwich Structures دانلود با لینک مستقیم و پرسرعت .

رساله دکتری با عنوان: Dynamic Finite Element Modeling and Analysis of Blast-resistant Sandwich Structures
دانشگاه : University of Connecticut
استاد راهنما: Jeong-Ho Kim
پژوهشگر: Linhui Zhang
سال 2012
فرمت فایل: PDF و شامل 165 صفحه

چکیده:
Blast-resistant composites and structures are gaining more and more academic and industrial interests currently. The metal sandwich structure is proven to perform better than the monolithic plate with the same mass under blast loading. Besides, the foam or foam-like cores with stacking of graded layers can further mitigate the blast effects. In this work, the dynamic responses of corrugated sandwich plates with various homogeneous and graded core arrangements under shock tube loading are investigated by finite element method. By comparing the maximum back face deflection, maximum back face velocity, plastic energy absorption, stress history and contact force, the corrugated sandwich plate with the gradually graded core has a better overall performance.
The parametric study on unit-cell corrugated and trapezoid sandwich structures with given mass and various core arrangements subjected to idealized air-blast loading is also carried out. The sandwich structures with graded cores can prevent the structure to get fully crushed. It is also shown that the trapezoid sandwich structures have larger impact tolerance, but the trapezoid sandwich structures are more sensitive to the initial geometric imperfections than corrugated sandwich structures.
Due to the benefits of the graded cores, a modified rule of mixture and linear strain-rate dependence are used to derive the rate-dependent elastic-plastic constitutive relation for functionally graded (FG) material. The derived constitutive relations are implemented in ABAQUS/Explicit through a VUMAT subroutine to simulate the dynamic response of a FG plate subjected to shock tube loading.


مشاهده آنلاین و دریافت فایل نمونه:
https://drive.google.com/file/d/0B3BBM5yT_t4ZWkUxUGdNRzNLS0k


** توجه: خواهشمندیم در صورت هرگونه مشکل در روند خرید و دریافت فایل از طریق بخش پشتیبانی در سایت مشکل خود را گزارش دهید. **