The lorica plumata (Latin pronunciation: [loːr̺iːka pluːmaːt̪a]) also known the lorica hamata squamatque[2] was a set of Roman armor. The name lorica plumata translates to feathered cuirass.[3][4] It was named for its a feathered appearance due to the feather-like scales called plumes attached to oval shaped rings.[3][5]
The lorica plumata was a sleeveless armor with no shoulder guards, that looked like a linothorax.[6] It was possibly reserved exclusively for the use of military leaders[5] of the rank of tribune or above.[7] Typically only generals wore it, due to the high cost of production and maintenance.[7] The lorica plumata would have been an expensive piece of military equipment.[3] The lorica plumata was one of the few sets of armor that combined mail and scales.[3]
History
editThe lorica plumata was originally a Sarmatian armor.[6] The earliest reference to the armor was made by the historian Marcus Junianus Justinus. He explains that the armor was used for soldiers, horses. and that it protects the entire body.[3] From a set of armor found at Vize, Turkey, we know that the armor was in use during the first half of the first century and that it had remained in use up to the third century.[8] At the Battle of Lake Trasimene the consul Flaminius's armor is described as "a coat of mail with, attached to it, wrought iron scales mingled with gold." The armor Flaminius is wearing is possibly the lorica plumata.[3] It continued to be used up to the Marcomannic Wars.
Current sets of armor
editOne fragment of this armor was allegedly found near Rome.[3] It was obtained by a Duchess who would then give it to the Altes Museum in Berlin.[3] Another incomplete set[8] is found in the Roman Museum in Augsburg.[3] The Istanbul Archaeological Museum has a complete set of the armor.[3] The armor was found in Vize.[2][3] Other pieces were found in Ouddorp, Usk, Xanten, Dülük Baba Tepesi,[8] and Mandeure.[3][9] Several other pieces have been found, although the location where they were found is unknown.[3] Most of these sets were located in northern Europe near the borders of the Ancient Roman Empire.[8] However, that could be a result of more archaeological research in those regions and the greater presence of Roman artefacts near the Limes Germanicus.[8] A possible reason behind the lack of remnants of the lorica plumata is that identifying the armor is difficult.[8]
Usage in the Roman army
editMany contest its utility on the field, with some theories suggesting it was exclusively a parade armor.[2][3] This is because the armor is rather flimsy and the individual components are small.[3] Others counter that the Romans did not have a concept of parade armor, that the locations of the remnants of the armor were found in a similar context to armor that we know was suited for battle, and that we should not apply modern conceptions about the strength of a set of armor to the past.[3]
Forging
editThe 160 to 350,000 rings in the mail[8] are arranged in alternating rows of oval-shaped riveted and solid rings made from either iron or a copper alloy.[3][9][8] Riveted links are inserted into each hole, thus attaching the mail to the rings. In order to insert the rivet, they flattened the rings that overlapped with other rings with an awl.[8][9] The rows of rings were overlapped left to right.[9] Afterwards, the blacksmiths would perforate the lap using hammers and anvils.[9] The holes were round at first, but during the forging process they were stretched by the force of the inserted rivets. This resulted in the rivet being clamped solidly into the ring. The rivets were made by cutting copper strips to the required length. The rings were made by punching out sheet metal or by welding out wire.[9]
For every two rows of rings there was a horizontal row of loose scales.[3] The armor was covered by 20 to 30,000 very small scales that were unlike any Roman scales.[3][8] Each scale was folded to leave a 90° angle at the top.[3] Four small holes can be found in the ledge formed by the angle.[3] Some scales were superimposed downwards and arranged vertically.[3] The scales had a rib down the center.[2] These ribbed scales would have been metallic.[3] Scales were used in the design of the armor because they are lightweight, strong, tough, and flexible.[10] With overlapping scales, if parts of the armor are broken, the wearer is still protected.[10] The result of this design would have been a heavy, highly flexible set of armor.[8] It was so flexible because its components were very small, allowing them to bend easily.[8]
See also
editReferences
edit- ^ Cavenel, Charles (1984). "Lorica". mediterranees.net (in French). Archived from the original on October 23, 2022. Retrieved 2023-05-01.
- ^ a b c d Dawson, Timothy (2013-08-05). Armour Never Wearies: Scale and Lamellar Armour in the West, from the Bronze Age to the 19th Century. The History Press. ISBN 978-0-7524-9424-1.
- ^ a b c d e f g h i j k l m n o p q r s t u v w Wijnhoven, Martin (2009). "Lorica Hamata Squamatque: A Study of Roman Hybrid Feather Armor". The Journal of the Mail Research Society. 2: 3 – via academia.edu.
- ^ Lapatin, Kenneth (2015-07-01). Luxus: The Sumptuous Arts of Greece and Rome. Getty Publications. ISBN 978-1-60606-422-1.
- ^ a b Ermatinger, James W. (2015-08-11). The World of Ancient Rome: A Daily Life Encyclopedia [2 volumes]: A Daily Life Encyclopedia. ABC-CLIO. ISBN 978-1-4408-2908-6.
- ^ a b D'Amato, Raffaele; Sumner, Graham (2009-09-17). Arms and Armour of the Imperial Roman Soldier: From Marius to Commodus, 112 BC–AD 192. Frontline Books. ISBN 978-1-4738-1189-8.
- ^ a b Marcia, Sandra (2007). The natural armor of fish: an exploration of a biological composite. University of Washington.
- ^ a b c d e f g h i j k l Wijnhoven, Martijn. Putting the scale into mail: Roman hybrid feathered armour.
- ^ a b c d e f Wijnhoven, Martijn (2009). "The Ouddorp Lorica: A Case Study of Roman lorica Hamata Squamataque". The Journal of the Mail Research Society. 2. Archived from the original on July 22, 2022.
- ^ a b Stephen, Jeremy (2020). Contact Mechanics of Fish Scale Inspired Exoskeletal Components on a Nonlinear Elastic Substrate. University of South Florida.