2.2. Method2.2.1. Mixing, curing an

2.2. Method
2.2.1. Mixing, curing and testing of MEPS aggregate concretes
MEPS aggregate was used as 0%, 25%, 50%, 75%, 100% of natural aggregate and
three concrete prism specimens were produced for each mixture proportions (Table
2). Mix preparation is particularly important when using very lightweight
aggregates. For the anticipated testing exactly six various mixtures of component
materials are produced (they are labeled as series from C1–C6).
All the concretes were mixed in a planetary mixer of 50 l capacity in the laboratory.
Several standard test specimens of different sizes were chosen to investigate
the various parameters. Prisms of 40  110  160 mm and 70  70  240 mm were
cast for the determination of thermal conductivity and drying shrinkage of MEPS
concretes, respectively. For each test, three specimens were cast. The mixing of
materials was done in a specific sequence, by placing a part of the water with super
plasticizer in the mixture and adding the dry MEPS aggregates, which was thoroughly
mixed for about 5 min to get the aggregates wetted with water and plasticizer
similar to the mixes designed for previous studies [7,15,16]. Then the
remaining materials were added to the mixer and the remaining water was gradually
added while the mixing was in progress. The fresh concrete densities and slump
values were measured immediately after mixing for all the concretes. The test specimens
were consolidated with hand compaction. The curing of concrete adopted for
TC has been described earlier [7,8,17]. The specimens were covered with wet gunny
bags 10 h after casting, then the specimens were removed and cured in water
(25 ± 2 C) until the time of testing.
A quick thermal conductivity meter (QTM 500) based on ASTM C 1113-90 [29]
was used. Measurement range is 0.0116–6 W/mK. The QTM 500 system is a rapid,
non-destructive easy to use TC system. Based on the modified hot-wire technique,
users can expect accurate and repeatable results.