Staff Directory


Siti Asmahani Binti Saad

Academic Qualification

  • Doctor of Philosophy in Civil Engineering - Doctor of Philosophy, Universiti Teknologi Petronas (UTP)
  • - Masters Degree, Universiti Putra Malaysia (UPM)

Siti Asmahani Binti Saad (Dr.)

Assistant Professor
IIUM Gombak Campus

KULLIYYAH OF ENGINEERING


asmahanisaad@iium.edu.my
NA


Area of Specialisation


  • Engineering Tech ~ Engineering And Technology ~ Civil Engineering ~ Other Civil Engineering n.e.c.


Professional Membership


  • 2019 - 2047: Member of Profesional Body / Association: (Graduate Member), Malaysian Structural Steel Association


Teaching Responsibilities


CIVIL ENGINEERING LAB I 2018/2019
CIVIL ENGINEERING LAB II 2020/2021 2018/2019 2019/2020 2021/2022
CIVIL ENGINEERING LAB III 2018/2019
CIVIL ENGINEERING MATERIALS 2018/2019
FINAL YEAR PROJECT I 2020/2021
FINAL YEAR PROJECT II 2019/2020 2020/2021
INDUSTRIALIZED BUILDING SYSTEM 2020/2021 2021/2022 2019/2020
STRENGTH OF MATERIALS 2019/2020 2021/2022 2018/2019 2020/2021 2017/2018


Research Projects


Completed
2018 - 2018 Kajian dan Pembangunan Standard Industri Pembinaan Perumahan Kebangsaan
On-Going
2021 - Present UNITED NATIONS HUMAN SETTLEMENT PROGRAMME (UN-HABITAT) ? GLOBAL FUTURE CITY PROGRAMME (IMPLEMENTATION PHASE) PUBLIC TRANSPORTATION MASTER PLAN AND GREEN MOBILITY CORRIDOR FOR THE CITY OF MELAKA
2020 - Present United Nations Human Settlement Programme (Unhabitat) - Implementation Phase and Project for Iskandar Malaysia
2020 - Present Kajian Pengurusan Pembangunan Persisir Pantai Padang Mat Sirat - Ayer Hangat, Langkawi, Kedah
2020 - Present Kajian Pengurusan dan Perlaksanaan Project Masyarakat bagi Pelan Tempatan Kuala Lumpur 2040
2019 - Present Regeneration behaviour of nanosilica with concrete waste via natural self-healing route for capturing CO2
2019 - Present Kajian Pelan Induk Perancangan Bersepadu Gunatanah Laluan MRT Sungai Buloh-Serdang-Putrajaya (Selangor-Kuala Lumpur-Putrajaya) (Laluan SSP) (Laluan 2) - Sektor Pengurusan dan Pelaksanaan
2019 - Present Pozzolanic and hydration of highly reactive treated rice straw ash for interfacial transitional zone improvement in low carbon green cement mortar
2019 - Present Investigation on the Strength Improvement and Microstructure Analysis of Concrete Incorporated Manufactured Sand (M Sand) As Fine Aggregate Replacement
2019 - Present KAJIAN IMPAK PASARAN PERUMAHAN MAMPU MILIK DARI PERSPEKTIF PENGHUNI DI MALAYSIA
2019 - Present KAJIAN PEMBANGUNAN PERUMAHAN TERBENGKALAI DI MALAYSIA
2019 - Present Kajian Rancangan Fizikal Negara Ke-4 (RFN Ke-4) dan Rangka Kerja Pembangunan Wilayah Bersepadu (RWB)
2018 - Present Environmental-friendly durable concrete bricks made with waste for sustainable construction with utilizing waste materials from Dalia Industries.
2018 - Present Future Cities Programme Local City Specialist - Malaysia (Johor)
2018 - Present Derivation of classification for flexible taxiway pavement profile using shear wave velocity parameter
2018 - Present RIVER MEANDER MIGRATION PREDICTION: EVALUATION OF EXISTING TECHNIQUES AND ESTABLISHMENT OF NEW EMPIRICAL MODEL
2018 - Present The effects of highly reactive silica from treated rice husk on the strength and structure of interfacial transition zone (ITZ) in low carbon concrete.


Award & Recognition


18 Sep, 2019 Bronze Award in Kulliyyah of Engineering Research Innovation and Comercialisation Exhibition (KERICE) 2019 - Kulliyyah of Engineering, IIUM KCDIO
13 Oct, 2018 FELDA 2.0 Timber Design Competition - Others National
06 Sep, 2018 Best Paper Award - Universiti Tenaga Nasional (UNITEN) National


Publications


Article

2020 The impact of manufactured sand (M-Sand) as partially and fully replacement of fine aggregate in concrete. Advances in Science, Technology and Engineering Systems Journal, 5 (1) pp. 302-306
2020 The recycled polyethylene terephthalate (PET) bottles waste as a fine aggregate replacement in concrete. TEST Engineering & Management magazine, 83 (May-June 2020) pp. 1093-1096
2020 The relation of compression strength with modulus of rupture and UPV of concrete containing M sand as fine aggregate. Advances in Science, Technology and Engineering Systems Journal (ASTESJ), 5 (5) pp. 39-46
2019 Polyethylene Terehthalate (PET) bottles waste as fine aggregate in concrete. International Journal of Innovative Technology and Exploring Engineering (IJITEE), 8 (6S4) pp. 1177-1180
2018 Analysis by means of surface response to chemical composition and pozzolanic reactivity of ultrafine treated rice husk ash (UFTRHA) as cementing additive material. International Journal of Engineering and Technology(UAE), 7 (4) pp. 342-346
2018 Compressive strength and microstructure analysis of treated rice husk ash (TRHA) incorporated mortar. International Journal of Engineering and Technology(UAE), 7 (4) pp. 388-391
2018 Physicochemical properties and pozzolanic performance of ultrafine treated rice husk ash (uftrha) as additive in concrete. Planning Malaysia : Journal of the Malaysian Institute of Planners, 16 (2) pp. 285-292
Conference or Workshop Item

2020 Correlation between slump, VeBe and compaction factor of concrete containing shredded PET bottles, manufactured sand (M-sand) and river sand as fine aggregate. In: 5th International Conference on Advanced Technology and Applied Sciences and 6th Malaysia Japan Joint International Conference (ICETAS MJJIC 2020),
2019 Polyethylene Terephthalate (PET) bottles waste as fine aggregate in concrete - a review. In: International Conference on Sustainable Urban Development Resource Conservation and Food Security,
2019 The effect of recycled Polyethylene Terephthalate (PET) bottles waste as a fine aggregate replacement in concrete. In: 4th International Conference on Advances in Manufacturing and Materials Engineering (ICAMME) 2019,
2018 Analysis by means of surface response to chemical composition and pozzolanic reactivity of Ultrafine Treated Rice Husk Ash (UFTRHA) as cementing additive material. In: International Graduate Conference on Energy, Engineering & Technology 2018 (iGRAD2018),
2018 Compressive strength and microstructure analysis of treated rice husk ash (TRHA) incorporated mortar. In: International Graduate Conference on Energy, Engineering & Technology 2018 (iGRAD2018),
Book

2017 Geopolymer concrete: effect of husk ash to compression and its microstructure properties. IIUM Press, International Islamic University Malaysia, ISBN: 978-967-418-540-4
Book Section

2020 Investigation on compatibility property between aggregates and bitumen modified with untreated and treated waste cooking oil. In: Springer International Publishing, ISBN: 978-3-030-32815-3, pp. 933-942
2020 Rainfall intensity (I)–duration (D) induced debris flow occurrences in Peninsular Malaysia. In: Springer, Cham, ISBN: 978-3-030-32815-3, pp. 897-903
2020 Reusable concrete debris as aggregate replacement on the properties of green concrete. In: Springer International Publishing, ISBN: 978-3-030-32815-3, pp. 869-878