MARC ayrıntıları
| 000 -BAŞLIK |
|---|
| Sabit Uzunluktaki Kontrol Alanı |
03732nam a22002657a 4500 |
| 003 - KONTROL NUMARASI KİMLİĞİ |
|---|
| Kontrol Alanı |
KOHA |
| 005 - EN SON İŞLEM TARİHİ ve ZAMANI |
|---|
| Kontrol Alanı |
20241009152902.0 |
| 008 - SABİT UZUNLUKTAKİ VERİ ÖGELERİ - GENEL BİLGİ |
|---|
| Sabit Alan |
240927d2024 cy deo|| |||| 00| 0 eng d |
| 040 ## - KATALOGLAMA KAYNAĞI |
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| Özgün Kataloglama Kurumu |
CY-NiCIU |
| Kataloglama Dili |
eng |
| Çeviri Kurumu |
CY-NiCIU |
| Açıklama Kuralları |
rda |
| 041 ## - DİL KODU |
|---|
| Metin ya da ses kaydının dil kodu |
eng |
| 090 ## - Yerel Tasnif No |
|---|
| tasnif no |
D 430 |
| Cutter no |
H87 2024 |
| 100 1# - KİŞİ ADI |
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| Yazar Adı (Kişi adı) |
Hussein, Twana Ahmed |
| 245 10 - ESER ADI BİLDİRİMİ |
|---|
| Başlık |
ADVANCED DEVELOPMENT IN ALKALI-ACTIVATED MORTAR: UTILIZING NANO SILICA, FIBERS, AND REFINED MIX FORMULATIONS FOR ENHANCED PERFORMANCE / |
| Sorumluluk Bildirimi |
TWANA AHMED HUSSEIN ; SUPERVISOR, ASSOC. PROF. DR. MOHAMMAD ALI MOSABERPANAH |
| 264 ## - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE |
|---|
| Date of production, publication, distribution, manufacture, or copyright notice |
2024 |
| 300 ## - FİZİKSEL TANIMLAMA |
|---|
| Sayfa, Cilt vb. |
357 sheets ; |
| Boyutları |
30 cm |
| Birlikteki Materyal |
+1 CD ROM |
| 336 ## - CONTENT TYPE |
|---|
| Source |
rdacontent |
| Content type term |
text |
| Content type code |
txt |
| 337 ## - MEDIA TYPE |
|---|
| Source |
rdamedia |
| Media type term |
unmediated |
| Media type code |
n |
| 338 ## - CARRIER TYPE |
|---|
| Source |
rdacarrier |
| Carrier type term |
volume |
| Carrier type code |
nc |
| 502 ## - TEZ NOTU |
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| Tez Notu |
Thesis (PhD) - Cyprus International University. Institute of Graduate Studies and Research Civil Engineering |
| 520 ## - ÖZET NOTU |
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| Özet notu |
This thesis investigates the optimization of alkali-activated mortar by integrating nano<br/>silica, various fibers, and refining mix formulations. The study evaluates the impact of<br/>these components on the mechanical performance, durability, and chemical resistance<br/>of alkali activated mortar (AAM) through empirical methodology. Initial literature<br/>review identifies optimal proportions of fibers and nano materials for incorporation<br/>into concrete and mortar mixtures. Experimental work explores into the effects of mix<br/>parameters on mortar's performance, highlighting enhancements in mechanical<br/>strength and chemical resistance with the inclusion of fibers and nano silica.<br/>Optimizing mix proportions, especially the sodium silicate to sodium hydroxide ratio<br/>(SS/SH) and sodium hydroxide molarity, is crucial for enhancing AAM properties.<br/>The research also investigates the impact of various superplasticizers and the<br/>significance of precursor combination and content in achieving superior material<br/>qualities. Advanced statistical and machine learning analyses are utilized to uncover<br/>detailed relationships between mix components and AAM performance, informing the<br/>creation of optimized formulations. These analyses highlight the intricate interactions<br/>within AAM mixes and demonstrate that precise adjustments can lead to substantial<br/>improvements in material properties. Moreover, the thesis explores the impact of<br/>different curing conditions and chemical exposures on AAM, shedding light on its<br/>durability and resistance to environmental stress. By utilizing the CONCRETop<br/>optimization method, the research determines ideal mix designs for specific<br/>applications, striking a balance between mechanical properties, durability, costeffectiveness,<br/>and environmental impact. This approach not only demonstrates the<br/>adaptability of AAM in addressing various construction requirements but also presents<br/>opportunities for sustainable development in the construction industry. In conclusion,<br/>the thesis provides a comprehensive perspective on AAM development, highlighting<br/>the important influence of nano silica, fibers (basalt fiber, polypropylene fiber, carbon<br/>fiber, steel fiber, polyvinyl alcohol PVA fiber and polyester fiber), and optimized mix<br/>formulations in improving the material's performance. The discoveries make a<br/>substantial contribution to the construction materials field by suggesting a way to<br/>create more resilient, environmentally friendly, and high-performance building<br/>solutions. This study lays the groundwork for further progress in AAM technology<br/>with the goal of expanding its application potential and encouraging sustainable<br/>construction practices globally. |
| 650 #0 - KONU BAŞLIĞI EK GİRİŞ - KONU TERİMİ |
|---|
| Konusal terim veya coğrafi ad |
Civil Engineering |
| Alt başlık biçimi |
Dissertations, Academic |
| 700 1# - EK GİRİŞ - KİŞİ ADI |
|---|
| Yazar Adı (Kişi adı) |
Mpsaberpanah, Mohammad Ali |
| İlişkili Terim |
supervisor |
| 942 ## - EK GİRİŞ ÖGELERİ (KOHA) |
|---|
| Sınıflama Kaynağı |
Dewey Onlu Sınıflama Sistemi |
| Materyal Türü |
Thesis |