The superior technology
Efforts for Processing the Wootz Steel
As per Wikipedia “As early as the 17th century, Europeans knew of India’s ability to make crucible steel from reports brought back by travelers who had observed the process at several places in southern India. Several attempts were made to import the process, but failed because the exact technique remained a mystery”.
Michael Faraday And Wootz Steel.
As per Wikipedia “Studies of Wootz were made in an attempt to understand its secrets, including a major effort by the famous scientist, Michael Faraday, son of a blacksmith. Working with a local cutlery manufacturer he wrongly concluded that it was the addition of aluminium oxide and silica from the glass that gave Wootz its unique properties.”
Superior Technology of Ancient India
As per Wikipedia “ “The Hindus excel in the manufacture of iron, and in the preparations of those ingredients along with which it is fused to obtain that kind of soft iron which is usually styled Indian steel (Hindiah). They also have workshops wherein are forged the most famous sabers in the world. …It is not possible to find anything to surpass the edge that you get from Indian steel (al-hadid al-Hindi)” The above said piece of information is amply corroborated by deep study.
FIRST TIME OBSERVATION OF HIGH CARBON
“In the early 1800s, following the descriptions of crucible steel making in south India by the European travelers, there was a spurt in interest in Europe in investigating south Indian Wootz steel, from which the fabled Damascus blades were known to be made, with the aim of reproducing it on an industrial scale. Mushets studies in 1804 were one of the first to correctly conclude that there was more carbon in Wootz than in steel from England, although this idea did not gain currency until later.” – Indian Science and Technology in the Eighteenth Century, –By Dharampal
ATTEMPTS TO MAKE WOOTZ BY ALLOYING
“Along with the cutler Stodart, Faraday attempted to study how to make Damascus steel and they incorrectly concluded that aluminum oxide and silica additions contributed to the properties of the steel and their studies were published in 1820. They also attempted to make steel by alloying nickel and noble metals like platinum and silver and indeed Faradays studies did show that that the addition of noble metals hardens steel. Stodart reported that Wootz steel had a very fine cutting edge.” – Indian Science and Technology in the Eighteenth Century –By Dharampal. MODERN EFFORTS Many attempts were made by experts in replicating this unique steel. As success rate being less more and more experiments with several techniques were employed .Over a long period this curiosity and attempts lead to the development of modern metallurgy. The following information will amplify the above. EXHAUSTIVE EXPERIMENTS “Following this the interest in Damascus steel moved to France. Wadsworth and Sherby have pointed out that Faradays research made a big impact in France where steel research on weapons thrived in the Napoleonic period. The struggle to characterize the nature of Wootz steel is well reflected in the efforts of Breant in the 1820s from the Paris mint who conducted an astonishing number of about 300 experiments adding a range of elements ranging from platinum, gold. Silver, copper, tin, zinc, lead, bismuth, manganese, arsenic, boron and even uranium, before he finally also came to the conclusion that the properties of Damascus steel were due to carbureted steel.” -“Wootz steel: an advanced material of the Ancient World S. Srinivasan and S. Ranganathan Department Of Metallurgy, Indian Institute of Science, Bangalore”
ACHIEVEMENT OF ANCIENT BHARATADESHA THOUSANDS OF TONS OF WOOTZ STEEL EXPORTED
“These provide evidence that Wootz steel was made by crucible processes over a fairly vast geographical area of Southern India over nearly half the size of Europe in a large semi-industrial enterprise with shipments of tens of thousands of Wootz ingots being sent to places such as Persia.” –Sharada Srinivasan and Srinivasa Ranganathan, National Institute of Advanced Studies, Bangalore and Indian Institute Of Science, Bangalore
1. Wootz steel as the acme of mankind’s metallurgical heritage
2. Wootz was the first high-quality steel made anywhere in the world
– Sharada Srinivasan and Srinivasa Ranganathan
Contemporary sophisticated characterization techniques were used by the German investigators. These included focused ion beam thinning, field-emission scanning electron microscopy and field emission gun transmission electron microscopy. ———-
This study enabled them to describe Damascus steel in modern idiom. —
The conventional experience in metallic materials is that as strength goes up, ductility and concomitant toughness are reduced. Then how did the ancient Indian metallurgist produce steel with the unusual combination of properties?
—“What is exciting is the possibility that in some cases the refinement of cementite proceeded to the nanometric scale. “
— India’s Legendary ‘Wootz’ Steel:
An Advanced Material of the Ancient World, Sharada Srinivasan and Srinivasa Ranganathan, National Institute of Advanced Studies, Bangalore, and Indian Institute of Science, Bangalore,
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‘Self-assembled heterophase nanostructures’! Quantum Blacksmiths “
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— India’s legendary ‘Wootz’ steel: