SiF2022
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If you are making a presentation in SiF2022 and you are undergraduate student or postgraduate student, you are eligible to compete for online presentation.
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You can send us the front page of your presentation to better show off your work by storing the image file (jpg, png) in this shared folder: https://polyuit-my.sharepoint.com/:f:/g/personal/sif2022_polyu_edu_hk/EhUOaivmoU1GqhlaUNYMcoQBcFridjmiPQ6_GejYO6p1sg
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To vote for Best Student Presentation Award, just choose your favourite presentations on each day. The award on each day goes to the one of highest votes. Voting for Day 1 will end on 23:59, 1 Dec 2022, GMT+8. Voting for Day 2 will end on 16:00, 2 Dec2022. Voting for Day 3 will end on 23:59, 3 Dec 2022.
Best Student Presentation Award of Day 1
ON THE PREMISE OF A NEW THEORY FOR FIRE-INDUCED SPALLING OF CONCRETE THROUGH EXPLAINABLE ARTIFICIAL INTELLIGENCE
Presented by Mohammad Khaled al-Bashiti;
![MK Bashiti[42732].jpg](https://static.wixstatic.com/media/d09606_40413fb587d54e93b18658bf1a5b46fc~mv2.jpg/v1/fill/w_436,h_247,al_c,q_80,usm_0.66_1.00_0.01,enc_auto/MK%20Bashiti%5B42732%5D.jpg)
ON THE PREMISE OF A NEW THEORY FOR FIRE-INDUCED SPALLING OF CONCRETE THROUGH EXPLAINABLE ARTIFICIAL INTELLIGENCE [No.7]
EXPERIMENTAL INVESTIGATION ON MECHANICAL PROPERTIES OF DOUBLE-SIDED STAINLESS-CLAD BIMETALLIC STEEL AT ELEVATED
TEMPERATURES [No.156]
INCREASED FIRE RESISTANCE OF A STEEL BEAM USING ORIENTED STANDARD BOARD CLADDING-A THERMAL ANALYSIS [No.50]
TOWARDS APPLICATION OF AI-FE HYBRID ANALYSES FOR SIMULATING STRUCTURES IN FIRE [No.227]
NUMERICAL APPROACH FOR EVALUATING SHEAR RESPONSE OF FIRE EXPOSED BRIDGE GIRDERS MADE OF UHPC [No.36]
Experimental research about moisture transfer, burning behaviour and charring behaviour of glue laminated larch under fire heating using cone calorimeter [No.170]
![SiF2022 127 Front page[42609].PNG](https://static.wixstatic.com/media/d09606_4f2999274e27440bbddcc64dff2dc42c~mv2.png/v1/fill/w_101,h_71,al_c,q_85,usm_0.66_1.00_0.01,blur_2,enc_auto/SiF2022%20127%20Front%20page%5B42609%5D_PNG.png)
A NOMOGRAM FOR PREDICTING FIRE-INDUCED SPALLING [No.4]
PREDICTING THE STRUCTURAL CAPACITY OF FIRE-EXPOSED CLT COMPRESSION MEMBERS [No.127]
Best Student Presentation Award of Day 2
RIGOROUS IMPLEMENTATION OF REAL-TIME HYBRID FIRE SIMULATION APPLYING HIGH HEATING RATES OF THERMAL LOADING
Presented by Faranak Faghihi
Numerical study of the response of cold-formed steel sections used in wall panels when subjected to fire [No.165]
Convective heat transfer coefficient of steel member in localized fire condition [No.57]
STUDY ON FIRE RESISTANCE OF PREFABRICATED DEMOUNTABLE COMPOSITE BEAMS USING BOLTED SHEAR CONNECTORS [No.60]
RIGOROUS IMPLEMENTATION OF REAL-TIME HYBRID FIRE SIMULATION APPLYING HIGH HEATING RATES OF THERMAL LOADING [No.99]
Bushfire resistance of light gauge steel framed wall systems [No.115]
Bushfire resistance of light gauge steel framed wall systems [No.115]
Best Student Presentation Award of Day 3
Maximum allowable consequence approach to fire safety design of bridges
Presented by Andrea Franchini
