The Fort Worth Press - Researchers dig up secrets of 'self-healing' Roman concrete

USD -
AED 3.672504
AFN 64.000368
ALL 82.099008
AMD 367.63228
ANG 1.790403
AOA 917.503981
ARS 1492.901385
AUD 1.443002
AWG 1.8025
AZN 1.70397
BAM 1.709092
BBD 2.014681
BDT 123.336392
BGN 1.69088
BHD 0.377157
BIF 2975.313497
BMD 1
BND 1.290864
BOB 6.927077
BRL 5.170399
BSD 1.000306
BTN 95.296893
BWP 13.491502
BYN 2.902259
BYR 19600
BZD 2.011797
CAD 1.41995
CDF 2246.000362
CHF 0.801016
CLF 0.023518
CLP 925.617163
CNY 6.789104
CNH 6.785505
COP 3363.656224
CRC 455.717219
CUC 1
CUP 26.5
CVE 96.35601
CZK 21.144704
DJF 178.127321
DKK 6.535604
DOP 59.256346
DZD 133.361297
EGP 49.283873
ERN 15
ETB 160.4018
EUR 0.873904
FJD 2.26045
FKP 0.748895
GBP 0.746798
GEL 2.63504
GGP 0.748895
GHS 11.363656
GIP 0.748895
GMD 72.503851
GNF 8772.665705
GTQ 7.634028
GYD 209.236685
HKD 7.84465
HNL 26.773277
HRK 6.587504
HTG 130.834098
HUF 308.910388
IDR 17994.4
ILS 2.99865
IMP 0.748895
INR 95.215504
IQD 1310.350854
IRR 1375950.000352
ISK 125.920386
JEP 0.748895
JMD 158.351903
JOD 0.70904
JPY 161.36504
KES 129.3398
KGS 87.447704
KHR 4005.767466
KMF 431.00035
KPW 900.00035
KRW 1528.775039
KWD 0.31029
KYD 0.833661
KZT 473.045834
LAK 22586.621226
LBP 89575.392144
LKR 335.046096
LRD 181.552847
LSL 16.224931
LTL 2.95274
LVL 0.60489
LYD 6.4115
MAD 9.354393
MDL 17.595141
MGA 4240.835409
MKD 53.86027
MMK 2099.883338
MNT 3582.147735
MOP 8.08057
MRU 39.921353
MUR 47.050378
MVR 15.460378
MWK 1734.609167
MXN 17.469104
MYR 4.071039
MZN 63.910377
NAD 16.224931
NGN 1370.080377
NIO 36.806921
NOK 9.841039
NPR 152.475204
NZD 1.75116
OMR 0.385704
PAB 1.000306
PEN 3.403766
PGK 4.394635
PHP 61.501038
PKR 278.103989
PLN 3.75205
PYG 6082.055315
QAR 3.656661
RON 4.568038
RSD 102.570892
RUB 76.986936
RWF 1464.412112
SAR 3.755774
SBD 8.058541
SCR 13.46616
SDG 600.503676
SEK 9.65806
SGD 1.291404
SHP 0.746601
SLE 24.350371
SLL 20969.503664
SOS 571.678245
SRD 37.566038
STD 20697.981008
STN 21.409534
SVC 8.752567
SYP 110.532098
SZL 16.22231
THB 33.325038
TJS 9.2726
TMT 3.51
TND 2.952244
TOP 2.40776
TRY 46.767504
TTD 6.779394
TWD 31.938038
TZS 2626.818718
UAH 44.550181
UGX 3650.980906
UYU 40.232446
UZS 11983.221916
VES 638.90327
VND 26296
VUV 118.93159
WST 2.77318
XAF 573.213615
XAG 0.016021
XAU 0.00024
XCD 2.70255
XCG 1.80277
XDR 0.712894
XOF 573.213615
XPF 104.216367
YER 237.050363
ZAR 16.231504
ZMK 9001.203584
ZMW 18.379866
ZWL 321.999592
  • CMSD

    -0.0300

    22.15

    -0.14%

  • CMSC

    0.0400

    21.99

    +0.18%

  • BCC

    0.4500

    75.93

    +0.59%

  • NGG

    2.6700

    82.85

    +3.22%

  • RIO

    1.0700

    94.42

    +1.13%

  • AZN

    11.2900

    195.15

    +5.79%

  • BTI

    1.2100

    61.77

    +1.96%

  • RBGPF

    2.5400

    68.15

    +3.73%

  • GSK

    2.3600

    53.66

    +4.4%

  • BCE

    0.4000

    21.42

    +1.87%

  • JRI

    0.0600

    13

    +0.46%

  • RYCEF

    0.5400

    19.68

    +2.74%

  • VOD

    0.1400

    13.15

    +1.06%

  • RELX

    0.5500

    31.93

    +1.72%

  • BP

    1.2500

    37.4

    +3.34%

Researchers dig up secrets of 'self-healing' Roman concrete
Researchers dig up secrets of 'self-healing' Roman concrete / Photo: © AFP

Researchers dig up secrets of 'self-healing' Roman concrete

How have Rome's ancient aqueducts and architectural marvels such as the Pantheon, which features the world's largest unreinforced concrete dome, endured the test of time?

Text size:

Researchers at the Massachusetts Institute of Technology (MIT) and other institutions believe they have uncovered the mystery of the durability of the 2,000-year-old structures -- self-healing concrete.

The secret lies in an ingredient of the ancient concrete used by the Romans that the researchers, whose findings are published in the latest edition of the journal Science Advances, said has been overlooked in previous studies.

The durability of the concrete used by the Romans has most frequently been attributed to the use of volcanic ash from Pozzuoli on the Bay of Naples, which was shipped across the Roman empire for construction.

But the researchers focused their attention on another component of the ancient concrete mix, small white chunks called "lime clasts."

"Ever since I first began working with ancient Roman concrete, I've always been fascinated by these features," said MIT professor of civil and environmental engineering Admir Masic, an author of the study.

"These are not found in modern concrete formulations, so why are they present in these ancient materials?"

The researchers said the lime clasts had been thought to be the result of "sloppy mixing practices" or poor-quality raw materials.

But they are in fact what gives the ancient concrete a "previously unrecognized self-healing capability."

"The idea that the presence of these lime clasts was simply attributed to low quality control always bothered me," said Masic.

"If the Romans put so much effort into making an outstanding construction material... why would they put so little effort into ensuring the production of a well-mixed final product?"

For the study, the researchers examined 2,000-year-old Roman concrete samples from the masonry mortar of a city wall in Privernum, Italy.

They found that a process known as "hot mixing" is what gave the concrete its "super-durable nature" in which the Romans mixed quicklime with water and the volcanic ash at high temperatures.

"The benefits of hot mixing are twofold," Masic said.

"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," he said.

It is the lime clasts that give the ancient concrete its "self-healing functionality," according to the research team, which also included scientists from Switzerland and Italy.

Tiny cracks in the concrete would tend to travel through the high-surface-area lime clasts and, when exposed to water, would recrystallize as calcium carbonate, filling the crack almost like glue.

"These reactions take place spontaneously and therefore automatically heal the cracks before they spread," said the researchers, who conducted tests using modern concrete and the ancient formula.

J.P.Estrada--TFWP