Metal tools of the Petrovka Culture of the Southern Trans-Urals and Middle Tobol: chemical and metallurgical characteristics

Degtyareva, A.D.; Kuzminykh, Sergei

doi:10.20874/2071-0437-2022-59-4-3

VAAE

2022

DOI: 10.20874/2071-0437-2022-59-4-3

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Metal tools of the Petrovka Culture of the Southern Trans-Urals and Middle Tobol: chemical and metallurgical characteristics

A.D. Degtyareva

Sergei Kuzminykh

Abstract: In this paper, the chemical composition of tools and ingots of the Petrovka Culture of the Southern Trans-Urals and Middle Tobol region is characterized with identification of main recipes of the alloys using several analytical methods (spectral, X-ray fluorescence, and atomic emission spectrometry analyses carried out in the laboratories of the Institute of Archaeology of the Russian Academy of Sciences and the Institute of Inorganic Chemistry of the Si-berian Branch of the Russian Academy of Sciences). The c… Show more

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Cited by 4 publications

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Technology for the production of sickles and knives of the Petrovka Culture of the Southern Trans-Urals (by the results of metallographic analysis)

Degtyareva

2023

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The data of the metallographic study of sickles and knives (37 pcs) of the Petrovka Culture from the Southern Trans-Urals and the Middle Tobol River basin of the 19th–18th centuries BC are reported. The implements originate from settlements (Ustye 1, Kulevchi 3, Starokumlyak, Kamyshnoe 2, Ubagan 2, Nizhneingaly 3) and burial complexes (Ozernoe 1, Krivoye Ozero, Verkhnyaya Alabuga). The reconstruction of the manufacturing technology of the Petrovka Culture tools from the Southern Trans-Urals was carried out by both taking into account the results of the surface visual inspection, as well as by the data of the microstructural study of the metal. The metallographic analysis was conducted at the Tyumen Scientific Center of the Siberian Branch of the RAS (microscope Axio Observer D1m from Zeiss; microhardness tester PMT-3M from LOMO). A certain correla-tion was revealed between the functional purpose of the product, type of the raw material, and the tool manufacturing flowchart. The sickles and knives with handles are produced primarily from pure copper (including oxidised) both in the process of casting in mould with subsequent finishing, as well as in the result of the forming forging. The tools obtained in the casting process often had casting defects, accompanied by the phenomenon of shrinking warpage of the metal. The finishing of the copper tools was taking place in most cases either in the regime of incomplete hot forging at 300–500 C, or hot forging at 600–800 C and at near-melting temperatures of 900–1000 C. Most of the sickles in the forging process were purposefully hardened by forging on the cold metal. Unlike the sickles and knives with handles, shank knives are made mainly of low-alloyed tin bronze. Apparently, this category of tools was given a special ritual significance, especially considering the fact that about a third of the tools came from burial complexes with a specific selection of the related implements. The use of tin bronze in the production of knives sig-nificantly contributed to the fabrication of high-quality castings with the smooth surface without metal warping defects. The fini-shing of the knives after casting was carried out with heating up to 600–800 C or 900–1000 C (44 % of the tools) or in the regime of incomplete hot forging (25 %). The forging on the cold metal with annealing was rarely used. Thus, at the basis of the choice of the technological traditions of the metal production lies the availability of a certain raw material base, the type of the metal obtained from this ore, as well as the inheritance of the technologies from the preceding cultural communities. Technological inno-vations in the processing of non-ferrous metal, associated with the supply of Sn-bronzes in the form of ingots or finished products from Central Kazakhstan to the Southern Trans-Urals, led to the significant increase in the quality of the produce.

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Technology for the production of sickles and knives of the Petrovka Culture of the Southern Trans-Urals (by the results of metallographic analysis)

Degtyareva

2023

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Non-ferrous metal of the Bronze Age of Northern Kazakhstan: geochemical characteristics and ore base

Artemyev,

Degtyareva,

Kuzminykh

et al. 2024

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The chemical composition of 29 copper and bronze artifacts from the sites of the Petrovka and Alakul Cultures located be-tween the Tobol and Ishim Rivers (the burial grounds of Bekteniz and Dzhangildy 5, and the sites of Novonikolskoye 1 and Semioz-ernoye 2; Northern Kazakhstan) were analysed using mass spectrometry with inductively coupled plasma and laser ablation. The sites are 14C dated to the interval between the 19th–17th centuries BC. In the examined sample, the leading metallurgical group with a slight prevalence in both Petrovka and Alakul metals was “pure” copper; the second part of the metal was represented by tin bronzes — low-alloyed (up to 8 wt.% Sn) in the Petrovka, and high-alloyed (Sn up to 21 wt.%) in the Alakul Culture. The statistical analysis of the main components of trace elements in the metal demonstrated a division into six main geochemical groups. Among these, tin bronzes with an uninterpretable copper component (10 specimens), “pure” copper of Ural origin with Fe-Co-Ni-As-Zn correlations (9 specimens), and “pure” copper with polymetallic Sn-Pb-As-Ag-Se specialization (10 copies), corresponding to the ores of copper deposits of the Kokshetau anticlinorium, can be identified. An overview of the tectonic structures of Northern Ka-zakhstan shows the nearby presence of several porphyry copper and skarn deposits with ancient mines (Imantau, Baksinskoye, Akkan-Burlukskoye, etc.), which likely served as sources of copper ore. Closely associated with these are Greisen and quartz-vein-greisen tin deposits, but there is no reliable information about their use in ancient times. According to the composition of tin alloys in the analysed metal, two main types can be distinguished: tin (without correlation with other impurity elements) when using pure cassiterite, and tin-lead (with increased concentrations and correlation of As, Au, Bi, etc.) when using cassiterite-sulfide ores. The data show the association of the Bronze Age sites of Northern Kazakhstan with the ore and raw materials base in this region, and the intensity of trade exchange of metallurgical products between the Ural and Kazakhstan centers of metal production.

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Technology of manufacturing copper and bronze tools of the Petrovka Culture of the Southern Trans-Urals and Middle Tobol region

Degtyareva

2024

VAAE

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The article presents the results of metallographic analysis of the Petrovka Culture tools from the southern Trans-Urals and Middle Tobol River region of the 19th–18th centuries BC (47 items). A certain correlation has been determined between the functional purpose of an item, the type of raw material, and the tool manufacturing scheme. The tools were mainly made of copper contaminated with impurities, obtained from oxide-carbonate ores with the addition of chalcocite-covellite minerals. A butted axe, sickles, knives with handles, tanged chisels, hooks, and some awls were made of copper, both by casting in a mold with subsequent finishing and by forming forging. Copper tools obtained by casting often had casting defects — shrinkage cracks and warping of the metal. In most cases, the tools were finished either in the regime of incomplete hot forging at 300–500°C, or hot forging at 600–800°C and pre-melting temperatures of 900–1000°C. During the Petrovka period, tin and tin-arsenic bronze started being used for manufacturing adzes, chisels, handled knives, the majority of awls, needles, spear-heads, and arrows. More progressive types of alloys in terms of fluidity, filling mold without defects in the form of low-alloy tin and tin-arsenic bronzes (Sn up to 7%, As up to 4%) came from related tribes of the Petrovka Culture of Saryarka, possibly from the Petropavlovsk Ishim region. The resulting castings were of high quality with smooth surface without metal warping defects. Subsequent finishing was carried out by selecting optimal heat treatment regimes mainly at 600–800°C or 900–1000°C, as well as using incomplete hot forging at 300–500°C. The hardness of the tools finished by forging with heating significantly exceeded the microhardness of the processed copper by 1.5–2 times.

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Metal tools of the Petrovka Culture of the Southern Trans-Urals and Middle Tobol: chemical and metallurgical characteristics

Cited by 4 publications

References 12 publications

Technology for the production of sickles and knives of the Petrovka Culture of the Southern Trans-Urals (by the results of metallographic analysis)

Technology for the production of sickles and knives of the Petrovka Culture of the Southern Trans-Urals (by the results of metallographic analysis)

Non-ferrous metal of the Bronze Age of Northern Kazakhstan: geochemical characteristics and ore base

Technology of manufacturing copper and bronze tools of the Petrovka Culture of the Southern Trans-Urals and Middle Tobol region

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