المناصب الاكاديمية

  • 2016 2017

    Assistant lecturer مدرس مساعد

    مركز دراسات وبحوث -

المراحل الدراسية

  • Master ماجستير 2015

    Structural Engineering

    Newcastle upon Tyne

  • Degree بكالوريوس 2006

    Building and Construction Management

    الجامعة التكنولوجية

الانشطة الاكاديمية

  • 12/26/2015

    Certificate in PRINCE2 Managing project in controlled environment 

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    المشاركة بدورة | المملكة المتحدة | بمفردي | اللغة الانجليزية

  • 6/8/2016

    Construction Contract strategy in an international market

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    المشاركة بدورة | المملكة المتحدة | بمفردي | اللغة الانجليزية

  • 6/1/2016

    Career Networking for Technical Professionals

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    المشاركة بدورة | | بمفردي | اللغة الانجليزية

  • 9/10/2016

    Diploma in English for Business

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    المشاركة بدورة | المملكة المتحدة | ضمن فريق | اللغة الانجليزية

  • 3/1/2009

    Certificate in Primavera P3 v 3.1 

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    المشاركة بدورة | العراق | ضمن فريق | اللغة العربية ادارة وتخطيط المشاريع

  • 6/24/2010

    Certificate of participation in Project Management Practical Workshop 

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    المشاركة بدورة | العراق | ضمن فريق | اللغة العربية

  • 6/13/2014

    Certificate of Performance from INTO Newcastle University 

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    المشاركة بدورة | المملكة المتحدة | ضمن فريق | اللغة الانجليزية

  • 8/14/2015

    UTILISATION OF HYBRID NANOCLAY-CFRP COMPOSITE MATERIALS IN THE ROOT AREAS OF WIND TURBINE BLADES

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    تأليف كتاب | المملكة المتحدة | بمفردي | اللغة الانجليزية

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    Thermal superinsulation to concrete Blocks introduced by using Nano Sio2 – Aerogel

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    UTILISATION OF HYBRID NANOCLAY-CFRP COMPOSITE MATERIALS IN THE ROOT AREAS OF WIND TURBINE BLADES U

    In the present study, four different V39 blade models with length 12.8 m have been c

    The most obvious finding to emerge from this study is that the modest addition of nanoclay (2%) with carbon fibre reinforced polymer leads to a significant stiffer blade, with a very small deflection, about 70% less than the baseline one made of glass. However, Hybrid Glass and Carbon/nanoclay (2%) model is considered to be safer as it has a lower stress concentration than others about (52.84 N/m 2 ). A reasonable considering that smaller deflections in the blades may decrease the probability of failure for whole blade model in the root area as well as decrease the total costs. Therefore, it can be found that Nanoclay-CFRP hybrid blades may suffer fewer cracks due to their greater stiffness, durability and a superior fatigue resistance which are the main focus of this study. In addition, the buckling analysis highlighted the importance of sandwich structures. The findings contribute to decisions related to materials selection, two-steps homogenization were performed, structural aerodynamic design, lay up schedule proposed. When it comes to the buckling analysis, its results released an evidence that all blade models were failed do to the fact these blade models were not optimised for this analysis

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