dr. ahmed wadood rifaat

pensyarah universiti

jabatan kejuruteraan awam

No. sambungan :  01128147460

No. rasmi:
UKM : 03 8921 5555



   Biografi/ Biography :

  • • Working now at Universiti Kebangsaan Malaysia (UKM) as a senior lecturer.‎ • Worked as a postdoctoral fellow at UKM in the field of ‎strengthened concrete-filled steel tube beams with internal stiffeners (Nov. 2018 - Feb. 2020). • Worked as a project manager to construct an industrial warehouses for the developer Alpha Galaxy Sdn Bhd in Selangor- Malaysia (Jan. 2017 - Oct. 2018).‎ • Studied the PhD in UKM and ‎my research project was “Strengthening behavior of concrete-filled steel tube beams partially ‎wrapped with CFRP sheets under static loading”, (Sep. 2013 - Jan. 2017) • In Abu Dhabi and Doha with Stanley Consultants civil site work experience included the ‎design of reinforced concrete structures, utility vaults, retaining walls, water tanks, steel ‎structure warehouse buildings, power station buildings and below-ground pumping stations (May 2010-Aug 2013).‎ • In Dubai I worked with W.S. ATKINS in projects to construct Al Mas Tower, Lighthouse ‎Tower and IRIS Bay Tower, in addition to that I worked as a structural designer for several ‎types of structures (concrete, steel and composite) (Nov. 2006 - May 2010); and • In Iraq I worked as a structural consultant and designer with the UNICEF program to ‎rehabilitate and built several types of building ( schools and health centers). Also, I worked as a designer and supervisor to construct the steel communication towers and ‎several concrete buildings with Saad Company (Oct. 1999 - Aug. 2006).‎

  • ali a. abdulhameed, alaa hussein al-zuhairi, salah r. al zaidee, ammar n. hanoon, ahmed w. al zand, mahir m. hason, haider a. abdulhameed.  (2022).  the behavior of hybrid fiber-reinforced concrete elements: a new stress-strain model using an evolutionary approach.  - applied sciences.  1-26. 

     

    marwan s. al shaikhli, wan hamidon wan badaruzzaman, and ahmed w. al zand.  (2022).  experimental and numerical study on the pssdb system as two-way floor units.  - steel and composite structures.  33-48. 

     

    ahmed w. al zand, mustafa farooq alghaaeb, mohammed chyad liejy, azrul a. mutalib, riyadh al-ameri.  (2022).  stiffening performance of cold-formed c-section beam filled with lightweight-recycled concrete mixture.  - materials.  1-23. 

     

    ahmed w. al zand, mustafa m. ali ,riyadh al-amer i,wan hamidon w. badaruzzaman, wadhah m. tawfeeq ,emad hossein pour, zaher mundher yaseen.  (2021).  flexural strength of internally stiffened tubular steel beam filled with recycled concrete materials.  - materials.  1-26. 

     

    mustafa m. ali, s.a. osman, al zand aw, m.y.m. yatim, faesal alatshana, salam j. hilo.  (2021).  concrete-filled twin-layer steel-sheet cws system: a systematic review of the literature.  - latin american journal of solids and structures.  1-43. 

     

    ali a. abdulhameed, alaa hussein al-zuhairi, salah r. al zaidee, ammar n. hanoon, ahmed w. al zand, mahir m. hason, haider a. abdulhameed.  (2022).  the behavior of hybrid fiber-reinforced concrete elements: a new stress-strain model using an evolutionary approach.  - applied sciences.  1-26. 

     

    marwan s. al shaikhli, wan hamidon wan badaruzzaman, and ahmed w. al zand.  (2022).  experimental and numerical study on the pssdb system as two-way floor units.  - steel and composite structures.  33-48. 

     

    ahmed w. al zand, mustafa farooq alghaaeb, mohammed chyad liejy, azrul a. mutalib, riyadh al-ameri.  (2022).  stiffening performance of cold-formed c-section beam filled with lightweight-recycled concrete mixture.  - materials.  1-23. 

     

    ahmed w. al zand, mustafa m. ali ,riyadh al-amer i,wan hamidon w. badaruzzaman, wadhah m. tawfeeq ,emad hossein pour, zaher mundher yaseen.  (2021).  flexural strength of internally stiffened tubular steel beam filled with recycled concrete materials.  - materials.  1-26. 

     

    jamal abdulrazzaq khalaf, abeer a. majeed, mohammed suleman aldlemy, zainab hasan ali, ahmed w. al zand, s. adarsh, aissa bouaissi, mohammed majeed hameed, zaher mundher yaseen.  (2021).  hybridized deep learning model for perfobond rib shear strength connector prediction.  - complexity.  1-21. 

     

    mustafa m. ali, s.a. osman, al zand aw, m.y.m. yatim, faesal alatshana, salam j. hilo.  (2021).  concrete-filled twin-layer steel-sheet cws system: a systematic review of the literature.  - latin american journal of solids and structures.  1-43. 

     

    ali a. abdulhameed, alaa hussein al-zuhairi, salah r. al zaidee, ammar n. hanoon, ahmed w. al zand, mahir m. hason, haider a. abdulhameed.  (2022).  the behavior of hybrid fiber-reinforced concrete elements: a new stress-strain model using an evolutionary approach.  - applied sciences.  1-26. 

     

    marwan s. al shaikhli, wan hamidon wan badaruzzaman, and ahmed w. al zand.  (2022).  experimental and numerical study on the pssdb system as two-way floor units.  - steel and composite structures.  33-48. 

     

    ahmed w. al zand, mustafa farooq alghaaeb, mohammed chyad liejy, azrul a. mutalib, riyadh al-ameri.  (2022).  stiffening performance of cold-formed c-section beam filled with lightweight-recycled concrete mixture.  - materials.  1-23. 

     

    mustafa m. ali, s.a. osman, al zand aw, m.y.m. yatim, faesal alatshana, salam j. hilo.  (2021).  concrete-filled twin-layer steel-sheet cws system: a systematic review of the literature.  - latin american journal of solids and structures.  1-43. 

     

    ahmed w. al zand, mustafa m. ali ,riyadh al-amer i,wan hamidon w. badaruzzaman, wadhah m. tawfeeq ,emad hossein pour, zaher mundher yaseen.  (2021).  flexural strength of internally stiffened tubular steel beam filled with recycled concrete materials.  - materials.  1-26. 

     

    e. n. saharuddin, wan hamidon wan badaruzzaman, ahmed w. al zand.  (2021).  polymer-based composite materials for industralised building system in flooding situations.  - proceedings of the 16th east asian-pacific conference on structural engineering and construction, 2019 (easce16).  1053-1062.