Green Self Compacting High-Performance Concrete (GSCHPC)

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Nyilvántartási szám: 
17/41
Témavezető neve: 
Témavezető e-mail címe:
nemes.rita@emk.bme.hu
A témavezető teljes publikációs listája az MTMT-ben:
A téma rövid leírása, a kidolgozandó feladat részletezése: 
Overview: It was revealed that economic activity is to be carried out such that it is in harmony with
earth’s ecosystem, where the sustainability of engineering products is not a choice anymore, but a
demand. Self-compacting high performance concrete is defined as a new generation of concretes on
the basis of the concepts of self-compacting concrete (SCC) and of high performance concrete
(HPC). Therefore, it possesses the adequate self-compactability (filling ability, passing ability and
segregation resistance) and the high strength and good durability of the HPC. The green version of
this kind of concrete could be achieved by replacing specific amount of its ingredients by waste
materials.
Aim and objectives: The main aim of the present study is to optimize green self-compacting high-
performance concrete (GSCHPC) by analyzing the effect of using recycled concrete aggregate (RA)
instead of coarse natural aggregate (NA) and waste powder materials instead of cement on its fresh
and hardened properties. It is going to be as an attempt to rise with the concept of sustainability by
minimizing the concrete impact on the environment, and maximizing its performance and service
life. But to reach that level of turning the non-renewable resource into a renewable one at least
partially. To do so, RA and three different waste powder materials (raw materials without any process
or modification) have been chosen for the study, those three waste powder materials are: a)
Unprocessed waste fly ash (UWFA), b) Waste perlite powder (WPP) c) Waster cellular concrete
powder (WCCP).
Several laboratory experiments were planned to be carried out on produced concretes, thus, all
properties which were directly interconnected to the concretes macro/microstructure could be
determined to introduce a comprehensive overview with regard to the challenges and possibilities of
the new GSCHPC. This can be optimized for various purposes such as using the highest possible
waste powder materials and RA content, and obtain the highest performance-cost ratio. 
A téma meghatározó irodalma: 
Strength, durability, and environmental properties of concrete utilizing recycled tire particles for pavement applications
By: Kardos, Adam J.; Durham, Stephan A.
CONSTRUCTION AND BUILDING MATERIALS Volume: 98 Pages: 832-845 Published: NOV 15 2015
A study of the durability of recycled green building materials in lightweight aggregate concrete
By: Hunag, Li-Jeng; Wang, Her-Yung; Wang, Shi-Yang
CONSTRUCTION AND BUILDING MATERIALS Volume: 96 Pages: 353-359 Published: OCT 15 2015
Investigating the properties of lightweight concrete containing high contents of recycled green building materials
By: Chen, Shyh-Haur; Wang, Her-Yung; Jhou, Jhou-Wei
CONSTRUCTION AND BUILDING MATERIALS Volume: 48 Pages: 98-103 Published: NOV 2013
Effects of High Volumes of Fly Ash, Blast Furnace Slag, and Bottom Ash on Flow Characteristics, Density, and Compressive Strength of High-Strength Mortar
By: Kim, H. K.; Lee, H. K.
JOURNAL OF MATERIALS IN CIVIL ENGINEERING Volume: 25 Issue: 5 Pages: 662-665 Published: MAY 2013
Durability of lightweight masonry mortars made with white recycled polyurethane foam
By: Junco, C.; Gadea, J.; Rodriguez, A.; et al.
CEMENT & CONCRETE COMPOSITES Volume: 34 Issue: 10 Pages: 1174-1179 Published: NOV 2012
A téma hazai és nemzetközi folyóiratai: 
ÉPÍTŐANYAG
ÉPÍTÉS-ÉPÍTÉSZETTUDOMÁNY *
VASBETONÉPÍTÉS: A FIB MAGYAR TAGOZAT LAPJA: MŰSZAKI FOLYÓIRAT
PERIODICA POLYTECHNICA-CIVIL ENGINEERING *
JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY *
JOURNAL OF MATERIALS IN CIVIL ENGINEERING *
MATERIALS SCIENCE FORUM *
CONSTRUCTION AND BUILDING MATERIALS *
JOURNAL OF MATERIALS *
A témavezető utóbbi tíz évben megjelent 5 legfontosabb publikációja: 
Nemes Rita
Lightweight Aggregate Concrete: Effect of Age and Curing Method
ZBORNIK RADOVA GRADEVINSKOG FAKULTETA SUBOTICA / PROCEEDINGS OF THE FACULTY OF CIVIL ENGINEERING SUBOTICA 26: pp. 37-44. (2014)
Nemes Rita, Török Bálint
Betonacél tapadása különböző adalékanyagok alkalmzása esetén
ÉPÍTŐANYAG 66:(1) pp. 7-12. (2014)
Nemes R, Fenyvesi O, Józsa Zs
Könnyűbeton hídszerkezetek, lehetőségek és a gyakorlat
KÖZLEKEDÉSÉPITÉSI SZEMLE: A KÖZLEKEDÉSÉPÍTÉSI SZAKTERŰLET MÉRNÖKI ÉS TUDOMÁNYOS HAVI LAPJA 59:(12) pp. 30-36. (2009)
Lublóy Éva, Nemes Rita, Balázs L György
Cementpéphez kevert kiegészítő anyag hatása a hőterhelés utáni nyomószilárdságra
ÉPÍTŐANYAG 60:(2) pp. 40-43. (2008)
Nemes Rita, Józsa Zsuzsanna
Aspects of Mix Design of Lightweight Aggregate Concrete
CONCRETE STRUCTURES: ANNUAL TECHNICAL JOURNAL: JOURNAL OF THE HUNGARIAN GROUP OF FIB 7: pp. 82-87. (2006)
A témavezető fenti folyóiratokban megjelent 5 közleménye: 
Nemes Rita
Surface properties of lightweight aggregate concrete and its correlation with durability
MATERIALS SCIENCE FORUM 812: pp. 207-212. (2015)
Nemes Rita
Könnyűbetonok fagyasztásvizsgálatának érdekességei
ÉPÍTŐANYAG 67:(1) pp. 24-27. (2015)
Gulyás Gergely , Kovács Tamás , Nemes Rita
Feszítőpászma tapadása nagyszilárdságú normál- és könnyűbetonokban
ÉPÍTÉS-ÉPÍTÉSZETTUDOMÁNY 42:(3-4) pp. 261-280. (2014)
Nemes Rita , Lublóy Éva
Application of anchors under special concrete conditions
PERIODICA POLYTECHNICA-CIVIL ENGINEERING 55:(1) pp. 73-79. (2011)
Nemes Rita , Józsa Zsuzsanna
Strength of Lightweight Glass Aggregate Concrete
JOURNAL OF MATERIALS IN CIVIL ENGINEERING 18:(5) pp. 710-714. (2006)
Hallgató: 

A témavezető eddigi doktoranduszai

Seyam Ahmed Maher (2019/2023/2024)
Gyurkó Zoltán (2015/2018/2021)
Abed Mohammed (2017/2019/2019)
Státusz: 
elfogadott