Saturday, May 11, 2024

2 Lessons from Roman Concrete

"Ancient Roman concretes have survived millennia, but mechanistic insights into their durability is an enigma.
For many years, researchers have assumed that the key to the
ancient concrete’s durability was based on one ingredient: pozzolanic material such as volcanic ash from the area of Pozzuoli, on the Bay of Naples.
This specific kind of ash was even shipped all across the vast Roman empire to be used in construction and was described as a key ingredient for concrete in accounts by architects and historians at the time.

Under closer examination, these ancient samples also contain small,
distinctive, millimeter-scale bright
white mineral features, which have been long recognized as a ubiquitous component of Roman concretes.
These
white chunks, often referred to as lime clasts, originate from lime, another key component of the ancient concrete mix
--These are not found in modern concrete formulations.

Q: So why are they present in these ancient materials?
Historically, it had been assumed that when lime was incorporated
into
Roman concrete, it was first combined with water to form a highly reactive paste-like material, in a process known as slaking. But this process alone could not account for the presence of the lime clasts.
Studying samples of this
ancient concrete from the ancient Roman city of Privernum, the authors determined that the white inclusions were, indeed, made out of various forms of calcium carbonate.

According to the team,
hot mixing was actually the key to the super-durable nature.
The benefits of hot mixing are twofold,” Professor Masic explained.
First, when the overall concrete is heated to high temperatures, it allows chemistries that are not possible if you only used slaked lime, producing high-temperature-associated compounds that would not otherwise form.”
“Second, this increased temperature significantly reduces curing and setting times since all the reactions are accelerated, allowing for much faster construction.”

During the hot mixing process, the lime clasts develop a characteristically brittle nanoparticulate architecture, creating an easily fractured and reactive calcium source, which could provide a critical self-healing functionality.
As soon as tiny cracks start to form within the concrete, they can preferentially travel through the high-surface-area lime clasts.
This material can then react with water, creating a calcium-saturated solution, which can recrystallize as calcium carbonate and quickly fill the crack, or react with pozzolanic materials to further strengthen the composite material.
These reactions take place spontaneously and therefore automatically heal the cracks before they spread.

To prove that this was indeed the mechanism responsible for the
durability of the Roman concrete, the team produced samples of hot-mixed concrete that incorporated both ancient and modern formulations, deliberately cracked them, and then ran water through the cracks.
--Within two weeks the cracks had completely healed and the water could no longer flow.
--An identical chunk of concrete made without quicklime never healed, and the water just kept flowing through the sample."
SciNews

2 LESSONS:
1) Ancient peoples weren't stupid.
2) Our Creator DESIGNED Chemical Components to do things on this earth---FOR US. The Creator gave us BRAINS to use for a reason. Keep the Science going, increasing our standard of living--just leave the evolutionary nonsense out of it.
Beloved, I wish above all things that thou mayest prosper...
3 John 1:2
Q: Why?
.....for God is love.
1 John 4:8

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