ArcelorMittal Kryviy Rih Product catalogue
The world’s number one steel company
The creation of ArcelorMittal brings together two companies with a common vision and a shared philosophy. Both Arcelor and Mittal Steel led the industry towards greater consolidation. Both understood that scale, geographic reach and product breadth are vital ingredients in steel industry success. Both invested heavily in research and development to produce the next-generation steels that would give customers a competitive edge. Above all, the two companies had highly complementary footprints in the world’s major markets.
The ArcelorMittal signatureJust as an individual’s handwritten signature is unique to them, the ArcelorMittal signature is unique to the company. Designed to suggest the transformational energy that characterises ArcelorMittal, the signature’s dynamic and iconic form reflects our leadership position in the steel industry.
Today, ArcelorMittal is unique. It is the only truly global steelmaker, with 320,000 employees in more than 60 countries and an industrial presence in 27 countries. It combines market leadership in the developed markets of Europe and America with a competitive production base in developing economies. It enjoys a leadership position in technically advanced products. And it benefits from a high level of vertical integration – from iron ore mining at one end of the value chain to steel service centres and distribution at the other.
As ArcelorMittal continues on this path, it will build not only on the enormous strengths created by the merger but help to establish a more sustainable steel company – maintaining profitability throughout the variable steel cycles – to the benefit of all its stakeholders.
A unique profile, a clear strategy
Message from Lakshmi Mittal, President and CEO
“ A new era has dawned for the world steel industry. The consolidation process of recent years, which was led in large part by ArcelorMittal and its predecessor companies, has transformed the steelmaking landscape – creating a more stable and sustainable market environment. We are proud to have played our role in this process.
We have long believed that size and scale are vital, both to compete in a global marketplace and to manage supply and demand through the economic cycle. A strong, sustainable industry benefits all its stakeholders – employees, customers and investors alike.
Today, ArcelorMittal exhibits not just size and scale, but resilience, strength and growth. Above all, we have a unique profile and a clear strategy.
Our strategy is to build a sustainable and stable business, creating value through the cycle, through scale and diversification.
At the same time, we want to set the standard in areas such as health and safety and career development. We want to engage positively with the communities in which we operate and demonstrate our commitment to good environmental practise. Our position as the industry leader demands no less.”
Sincerely,
– We are the only truly global steel producer, with a leadership position on four continents. A quarter of our production comes from plants that figure among the lowest-cost producers in the world. Together with a high degree of exposure to stable markets and long-term contracts, this leaves us well placed to deliver sustained profitability and high cash-flow generation.
– We are the only producer offering and developing the full range of steel products and services. High-end and specialty products account for more than 60 % of shipments. The breadth of our product range and the diversity of our customer base help insulate us from shifting demand patterns.
– We are not just a steel producer. At one end of the value chain, we are an integrated metals and mining business. At the other, we operate a significant service and distribution business that transforms finished products and delivers a bespoke service to customers. Wherever opportunities arise, we are able to capture them.
“ Today, ArcelorMittal exhibits not just size and scale, but resilience, strength and growth.”
Transforming tomorrow: Our philosophy, our values
We know that our position in the steel industry brings unique responsibilities. We are committed to setting globally recognized standards with the needs of future generations in mind.
Our goal is to provide the leadership that will transform tomorrow’s steel industry.
We have a clear vision of the future, underpinned by a consistent set of values.
Sustainability
We are guiding the evolution of steel to secure the best future for the industry and for generations to come…
…Our commitment to the world around us extends beyond the bottom line, to include the people in which we invest, the communities we support and the world in which we operate. This long-term approach is central to our business philosophy.
We look beyond today to envision the steel of tomorrow…
Quality
…Because quality outcomes depend on quality people, we seek to attract and nurture the best people to deliver superior solutions to our customers.
Leadership
We are visionary thinkers, creating opportunities every day…
…This entrepreneurial spirit brought us to the forefront of the steel industry. Now, we are moving beyond what the world expects of steel.
To maintain and enhance the critical importance of health and safety among our 320,000 employees, a worldwide Health and Safety Day is held every year. The purpose of the event is to mobilise the Group’s entire workforce – including subcontractors – to improve risk awareness, identify best practice and promote knowledge sharing in the health and safety arena.
Safety comes first: the wellbeing of our workforce and contractors is our number one priority. A strong health and safety culture is instilled at every level of the company and is supported by a robust set of safety standards. A continuous reduction in the frequency rate of accidents is targeted year-on-year.
Our health and safety management system lays particular emphasis on local health and safety leadership and behaviour. A structure of Group-level and regional health and safety committees is designed to improve the flow of new initiatives and support the sharing of best practices throughout the Group.
Health and safety
We work hard to ensure the health and safety of our people – and minimise our impact on the environment.
A worldwide presence
With 320,000 employees in 60 countries, ArcelorMittal spans the globe as no other steelmaker. It is the industry leader on four continents, ranking number one in all major customer segments.
Our huge reserves of raw materials – iron ore and coal – span five continents. Many are located close to our steelworks, improving supply logistics. At the other end of the value chain, our worldwide network of distribution and steel service centres provides a powerful complement to our diversified production base.
Allied to our product breadth, our global presence gives us unrivalled capacity to deliver what our customers require.
The merger of Arcelor and Mittal Steel brought together the leading steelmaker in Western Europe and Latin America with its counterpart in North America, Eastern Europe and the CIS, and Africa. That natural fit is now reflected in a worldwide operation with leadership on four continents and an industrial presence in 27 different countries.
That global footprint brings numerous benefits. Most importantly, it gives us a unique platform from which to serve our multi-national customers. With plants sited close to theirs, we are in a position to support their developments wherever they arise. We can also deliver to them standard solutions around the globe, assuring them consistent quality.
The scale and scope of our operations enhance our ability to compete effectively. Our business units support one another by generating product synergies and sharing know-how. All benefit from the enhanced purchasing power that comes from being part of the expanded Group. All share in the fruits of our continuous investment in research and product development. And all enjoy access to world markets through a unified export organisation and a global sales and marketing network.
Our global production
22 %US and Canada
Percentages indicate geographical breakdown of ArcelorMittal production in 2006
US $88.6 billion
09 %Latin America
sales in 2006
10 %CIS and Central Asia
07 %Africa
118million tonnes of steel produced worldwide
18 %Central and Eastern Europe
34 %Western Europe
The future
We will continue to play a role in building a more consolidated, sustainable steel industry.
A consistent strategy has driven the Group over many years. We have led the consolidation of the world steel industry and we will continue to do so. In the process, we will not only build on the enormous strengths created by the merger but also help cement the new-found sustainability the industry enjoys.
We now combine a leadership position in high-end, developed markets with extensive low-cost production in developing economies. We are the first steelmaker with the scale to match that of our global customers – and with the geographic reach to support them around the globe.
That reach is key. Many of our customers value a supplier that can deliver the same, high-quality product in multiple markets. We will continue to build a global platform from which we can support them wherever they choose to operate.
That means expanding our presence in developing economies – both to serve our multi-national customers and to participate in the domestic growth that is forecast for many of those markets.
As important as geographical expansion is continued vertical integration. No other steelmaker combines the same wealth of upstream assets – in coal and iron ore mining and low-cost slab production – with the breadth of downstream production and distribution enjoyed by ArcelorMittal.
ArcelorMittal believes this winning strategy has not only created the market leading position enjoyed today, but ideally positions the company to lead the steel industry into a new phase of quality and sustainability.
A glimpse of Kryviy Rih history
Though Kryviy Rih was developing as a raw materials base it is also the city of metallurgists, workers of chemical industry, machine builders, workers of food and light industries. In total Kryviy Rih has 65 big enterprises, among them OJSC “ArcelorMittal Kryviy Rih” – the largest in Ukraine.
Over twenty centuries the ancient land between rivers Ingulets and Saksagan serves the people. Scythian iron was mentioned by ancient Greek poet Aeschylus, it was highly appreciated by the “father of history” Herodotus. That iron was used as a feed for the “rudnyas” (smelting furnaces) of the Dnieper Cossacks. The last Cossacks ataman of Zaporozhskaya Sech, a talented administrator, brave warrior, successful colonizer of the Dikoye Pole (wild lands) and zealous chief of the Cossacks republic Pyotr Kalnyshevsky indicated with surprising accuracy the place of the future post station Kryviy Rih, as from the 8th of May 1775 (as per new style) that post station gave birth to the future city rich in iron-ore whose name originates from the shape of the cape formed by the joining of its two picturesque rivers.
The legendary founder of the contemporary mining and metallurgical center of Ukraine retired cossack Kryviy Rih will stir the imagination of the countrymen for a long time because the legends live ages. People endowed him with a lot of features which reflected his feats of arms.
trade relations with Great Britain, Austro-Hungary, Holland, Germany and western provinces of Russian Empire, Polish Kingdom. The iron-ore export reached 23 % of the output.
Kryviy Rih provided 2/3 of iron-ore output of Russian Empire due to quite a high labor productivity of the unfortunate Kryviy Rih miners, talent of such industrialists as Rogovsky, Kopylov, Kolachevsky and investments of French and Belgian banks.
The rapid development of this iron-ore area was interrupted by World War I. In 1922, after the October revolution and the end of the Civil War, a competent specialist said: “Such a phenomenon as a 4 years long period of flooding of the whole iron-ore area which had been in perfect condition before it was involved in the events, became the first occurrence in the history of mining”.
Kryviy Rih of today is a giant city. It stretches from the south to the north by 126 kilometers while it is only about 20 kilometers wide. The administrative division of the city is as follows: there are seven districts, five townships and a suburban town Ingulets. Together they occupy the territory of 450 square kilometers.
But the first Kryviy Rih dweller in reality was Feodosy Kudlyk, Zaporozhsky Cossacks clerk. It was he (and five his unknown subordinates) who built the post station on the road connecting Kremenchug and Kinburn. Afterwards a village started growing around that post station. It knew the cruelty of military settlements introduced by the tsar Nikolai and a sleepy township of Kherson province (the status of a township was granted in 1860). This kind of life of the remote place was drastically changed by a fantastic energy of one man – Alexander Nikolayevich Pol. That great-grandson of an ardent fighter for the right cause, appointed Hetman of Ukraine Pavel Polubotok, was named quite in the spirit of that time as “Columbus of New Russia” and the decision to erect him a monument in his life-time was duly discussed at the Nobility Assembly in Yekaterinoslav. Pol, according to his biographer, presented a powerful social force himself.
A landlord, far-sighted energetic employer and historian interested in the past history of Ukraine, ethnographer, archeologist, generous philanthropist, lawyer and educator of his region, Pol became a founder of the industrial iron-ore mining in Kryviy Rih. He initiated the construction of Kryviy Rih – Donbass railroad, construction of the bridge across the Dnieper in Yekaterinoslav, erection of Bryansk Metallurgical Plant and Gdantsevka Ironworks. In 1987 the Kryviy Rih iron-ore area overtook the Urals iron-ore area in the ore output. Its
Products of OJSC “ArcelorMittal Kryviy Rih”
Conversion pig iron as per GOST 805-95 /Foundry pig iron as per GOST 4832-95
Chemical Composition:
Application of pig Iron
Pig iron grade
Fraction of total mass, %
C Si
MnS P
Group
1 2 3 4 max
For steel-making
PR1
4,0-4,5
0,51-0,90max 0,50 0,51-1,00 1,01-1,50 -
Categories 1 - 0,01 2 - 0,02 3 - 0,03 4 - 0,04 5 - 0,05
Class A - 0,1 Class B - 0,2PR2 max 0,50
For foundryPL1R 0,91-1,20
max 0,30 0,31-0,50 0,51-0,90 0,91-1,50Class A - 0,1 Class B - 0,2PL2R 0,51-0,90
Foundry pig iron
L1
3,4-4,5
3,21-3,60
max 0,30 0,31-0,50 0,51-0,90 0,91-1,50
Categories 1 - 0,022 - 0,03 3 - 0,04
Class A - 0,08 Class B - 0,12
L2 2,81-3,20
L3 2,41-2,80
L4 2,01-2,41 Categories 1 - 0,02 2 - 0,03 3 - 0,04 4 - 0,05
L5 1,61-2,01
L6 1,21-1,60
Magnesium refined foundry pig iron
LR1
3,4-4,5
3,21-3,60
max 0,30 0,31-0,50 0,51-0,90Categories 1 - 0,005 2-0,010
Class A - 0,08 Class B - 0,12
LR2 2,81-3,20
LR3 2,41-2,80
LR4 2,01-2,41
LR5 1,61-2,01
LR6 1,21-1,60
LE7 0,81-1,20
Hot- rolled billets as per TU U 27.1- 00190319-1307-2003
Sizes: 80x80, 100x100, 125x125, 150x150 mm
Size,mm x mm
Limit deviation on square side,
mm
Diagonal difference, mm
Corner radius, mm
Mass, 1 r.m., kg Inclination of cut, max, mm
Camber of billets, max, %
on linght
Twist of billets, max, degrees
150x150 ±5,0 7,0 21,0 173,658
1,5 18125x125 ±4,0 5,6 18,0 120,47
80x80 ±3,0 4,2 12,0 149,27 6
Steel GradeFraction of total mass, %
C Mn Si S max P max Cr max Ni max Cu max
ST 1KP 0,06-0,12 0,25-0,50 Max 0,05 0,05 0,04 0,3 0,3 0,3
ST1PS 0,06-0,12 0,25-0,50 0,05-0,15 0,05 0,04 0,3 0,3 0,3
St2KP 0,09-0,15 0,25-0,50 Max 0,05 0,05 0,04 0,3 0,3 0,3
St2PS 0,09-0,15 0,25-0,50 0,05-0,15 0,05 0,04 0,3 0,3 0,3
St3KP 0,14-0,22 0,30-0,60 Max 0,05 0,05 0,04 0,3 0,3 0,3
St3PS 0,14-0,22 0,40-0,65 0,05-0,15 0,05 0,04 0,3 0,3 0,3
SAE1006 max 0,08 0,25-0,40 * 0,05 0,04 0,15 0,15 0,3
SAE1008 max 0,10 0,30-0,50 * 0,05 0,04 0,15 0,15 0,3
SAE1010 0,08-0,13 0,30-0,60 * 0,05 0,04 0,15 0,15 0,3
SAE1012 0,10-0,15 0,30-0,60 * 0,05 0,04 0,15 0,15 0,3
SAE1013 0,11-0,16 0,50-0,80 * 0,05 0,04 0,15 0,15 0,3
SAE1015 0,13-0,18 0,30-0,60 * 0,05 0,04 0,15 0,15 0,3
SAE1016 0,13-0,18 0,60-0,90 * 0,05 0,04 0,15 0,15 0,3
Chemical composition:
Content of Si is established within the following limits as agreed with the Integrated Works:max 0,05 %max 0,10 %0,10-0,20 %0,15-0,35 %
Packing: in bulk; length: up to 12 000 mm (+100 mm).Note: packing in bundles may be possible by the agreement with the Consumer.
Width,mm
Thickness (height)*, mm
4 5 6 8 10
20 + + +
25 + + +
30 + + +
35 +
40 + + + +
50 + + + +
60 + +
63 +
70 +
75 +
Hot-rolled flat steel bars as per GOST 103-76Ultimate devations on width from 20 to 60 mm +0,5/-1,0 mm; 63 mm+0,5/-1,3; 70-75 mm +0,5/-1,4; on thickness : from 4 to 6 mm +0,3/-0,5 mm at width from 11 to 60 mm; from 6 to 16 mm +0,2/0,5 mm at width 63, 65 mm
* Manufacture of the steel strip with a thickness not indicated in the Table is possible by the agreement with the Consumer.
Chemical composition:
Steel Grade*Fraction of total mass, %
C Mn Si S max P max Cr max Ni max Cu max
3ps 0,14-0,22 0,40-0,65 0,05-0,15 0,05 0,04 0,3 0,3 0,3
* Manufacture of the steel strip of other steel grades is possible by the agreement with the Customer.
Steel grade
Mechanical properties
Ultimate tensile strength, N/mm2 min
Yield strength, N/mm2 min
Elongation, % minCold bend through
180°Impact strength*
3 PS 370 245 26 + +
Mechanical properties:
* The steel strips with a thickness over 5 mm are tested.Packing: in bundles of up to 5 t; length: up to 10 000 mm (+100 mm).Manufacture of steel strips in bundles up to 5 t, with a length of up to 12 000 mm (+100 mm) is possible by the agreement with the Customer.
Hot-rolled square steel bars with tolerances according to GOST 2591-88
Dimensions:
Dimensions, mm x mm
Ultimate deviations, mm x mm
Bar camber, %, max
10x10
+0,3-0,5
0,5 % of length
12x12
14x14
16x16
20x20 +0,4-0,522x22
Chemical composition:
* by agreement with a customer the manufacture of the squares from other grades of steel is permissible.
Steel grade*
Mass fraction of the elements, %
C Win Si Smax Pmax Crmax Nimax Cumax
3ps0,14-0,22
0,40-0,65
0,05-0,15
0,05 0,04 0,3 0,3 0,3
* by agreement with a customer the manufacture of the squares from other grades of steel is permissible.
Mechanical properties:
* test is carried out on squares with a side more than 11,0 mm.Packing: in bundles of weight up to 5 t, length up to 12 000 mm (+100 mm).
Steel grade*
Mechanical properties
Ultimate rupture
strength, N/mm2, min.
Yield strength,
N/mm2, min.
Elongation, d5, %, min.
Cold bend test by 180°
Impact elasticity*
3ps 370 245 26 +
Hot-rolled steel hexagonal bars with tolerances according to GOST 2879-88
Dimensions: 16, 17, 19, 22, 25 and 27 mmUltimate deviations: 16-19 mm +0,3/-0,5 mm; 22-25 mm +0,4/-0,5 mm; 27 mm +0,4/-0,7 mmBar camber, %: max. – 0,5% of the length
Steel grade*Fraction of total mass of the elements, %
C Mn SI S max P max Cr max Ni max Cu max
3ps 0,14-0,22 0,40-0,65 0,05-0,15 0,05 0,04 0,3 0,3 0,3
* by agreement with a customer manufacture of the squares from other grades of steel is permissible.
Steel grade
Mechanical properties
Ultimate rupture strength, N/mm2, min.
Yield strength, N/mm2, min
Elongation, d5, %, minCold bend test by
180°Impact elasticity*
3ps 370 245 26 + +
Mechanical properties
Packing: in bundles of weight up to 5 t, length up to 12 000 mm (+100 mm).
Rolled Shapes of Carbon Steel (equal angles) according toDSTU 2251-93 (GOST 8509-93)
Dimensions:
Dimensions,mm x mm
Leg thickness*, mm Ultimate deviations, mmBar camber,
%/1 m2,5 3 4 5 6on the leg
widthon the leg thickness
20x20 + +
0,4 % of length
25x25 + + +
30x30 + + +
32x32 + + +1 +0,3
35x35 + + -1 -0,4
36x36 + +
40x40 + + + +
45x45 + + +
Chemical composition:
Mechanical properties:
Steel Grade*Fraction of total mass of elements, %
C Mn Si S max P max Cr max Ni max Cu max
3ps 0,14-0,22 0,40-0,65 0,05-0,15 0,05 0,04 0,3 0,3 0,3
5ps 0,28-0,37 0,50-0,80 0,05-0,15 0,05 0,04 0,3 0,3 0,3
Steel Grade
Mechanical properties
Ultimate rupture strength, N/mm2, min.
Yield strength, N/mm2, min.
Elongation, %, min.Cold bend test by
180°Impact elasticity*
3ps 370 245 26 + +
5ps 490 285 20 + +
* test is carried out for angles of leg 5 mm and more.
Packing:a) in bulk, in bundles of weight up to 5 t, length up to 12 000 mm (+100 mm); b) stacking “in lock”(under the agreement of parties), in bundles of weight up to 5 t, length up to 60000 mm (+100 mm) or 9000 mm (+100) mm.
Hot-rolled round steel bars of carbon steel according to GOST 2590-88
Ultimate deviations: for Ø 26-30 mm +0,3/-0,7 mm; for Ø 31-32 mm 0,4/-0,7 mm Dimensions: ØØ 10-32 mm
Diameter, mm Ultimate deviations, mm Bar camber, % max
10-19+0,3-0,5
0,5 % of lenght
20-25+0,4-0,5
26-28+0,3-0,7
30-32+0,4-0,7
Chemical composition:
Mechanical properties:
Steel grade*Fraction of total mass of the elements, %
C Mn Si S max P max Cr max Ni max Cu max
3kp 0,14-0,22 0,30-0,60 Max 0,05 0,05 0,04 0,3 0,3 0,3
3ps 0,14-0,22 0,40-0,65 0,05-0,15 0,05 0,04 0,3 0,3 0,3
5ps 0,28-0,37 0,50-0,80 0,05-0,15 0,05 0,04 0,3 0,3 0,3
Steel grade
Mechanical properties
Ultimate rupture strength, N/mm2,
min.
Yield strength, N/mm2, min.
Elongation, %, min.Cold bend test by
180°Impact elasticity*
3kp 360 245 27 + +
3ps 370 245 26 + +
5ps 490 285 20 + +
* test is carried out for rounds of diameter 12 mm and more.
Packing:- ØØ 10-30 mm – in bundles of weight up to 5 t, length up to 12 000 mm (+100 mm);- ØØ 4-32 mm – in coils of weight 1700-2100 kg. Coil height up to 1750 mm; external diameter up to 1250 mm; internal diameter up to 850 mm. Binding with wire rod of diameter 5,5-7,0 mm: 4 radial and 1 transversal.
Standard Steel GradeMass fraction of elements, %
C Mn Si S max P max Cr max Ni max Cu max
DSTU 2770-94 St1kp 0,06-0,12 0,25-0,50 Max 0,05 0,05 0,04 0,3 0,3 0,3
DSTU 2770-94 St1ps 0,06-0,12 0,25-0,50 0,05-0,15 0,05 0,04 0,3 0,3 0,3
DSTU 2770-94 St2kp 0,09-0,15 0,25-0,50 Max 0,05 0,05 0,04 0,3 0,3 0,3
DSTU 2770-94 St2ps 0,09-0,15 0,25-0,50 0,05-0,15 0,05 0,04 0,3 0,3 0,3
DSTU 2770-94 St3kp 0,14-0,22 0,30-0,60 Max 0,05 0,05 0,04 0,3 0,3 0,3
DSTU 2770-94 St3ps 0,14-0,22 0,40-0,65 0,05-0,15 0,05 0,04 0,3 0,3 0,3
ASTM A510M SAE1006 max 0,08 0,25-0,40 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1008 max 0,10 0,30-0,50 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1010 0,08-0,13 0,30-0,60 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1012 0,10-0,15 0,30-0,60 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1013 0,11-0,16 0,50-0,80 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1015 0,13-0,18 0,30-0,60 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1016 0,13-0,18 0,60-0,90 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1017 0,15-0,20 0,30-0,60 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1018 0,15-0,20 0,60-0,90 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1019 0,15-0,20 0,70-1,00 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1020 0,18-0,23 0,30-0,60 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1021 0,18-0,23 0,60-0,90 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1022 0,18-0,23 0,70-1,00 * 0,05 0,04 0,15 0,15 0,3
ASTM A510M SAE1023 0,20-0,25 0,30-0,60 * 0,05 0,04 - - -
ASTM A510M SAE1030 0,28-0,34 0,60-0,90 * 0,05 0,04 - - -
ASTMA510M SAE1035 0,32-0,38 0,60-0,90 * 0,05 0,04 - - -
ASTM A510M SAE1049 0,46-0,53 0,60-0,90 * 0,05 0,04 - - -
ASTM A510M SAE1050 0,48-0,55 0,60-0,90 * 0,05 0,04 - - -
ASTM A510M SAE1053 0,48-0,55 0,70-1,00 * 0,05 0,04 - - -
Wire rod of ordinary quality carbon steel according to DSTU 2770-94 and ASTM-A-510M
Diameter: 5,5-14,0 mmUltimate deviations: +0,3/-0,5 mm
* - Si content is specified upon agreement with the Integrated Works within the following limits: max 0,05 % 0,10-0,20 % max 0,10 % 0,15-0,35 %
Chemical composition:
Standard Steel grade
Ultimate strength, N/mm2, max Reduction of area (elongation), %, min
Diameter, mm/bundle weight, kg Diameter, mm/bundle weight, kg
6,5-8,0/ max 5505,5-14,0/ 1100-
21006,5-8,0/ max 550
5,5-14,0/ 1100-2100
DSTU 2770-94 St1kp 420 470 68 66
DSTU 2770-94 St1ps 420 470 68 66
DSTU 2770-94 St2kp 420 470 60 60
DSTU 2770-94 St2ps 420 470 60 60
DSTU 2770-94 St3kp 490 540 60 60
DSTU 2770-94 St3ps 490 540 60 60
ASTM A510M SAE1006 335-425 340-470 (18) (18)
ASTM A510M SAE1008 335-425 340-470 (18) (18)
ASTM A510M SAE1010 335-425 340-470 (18) (18)
ASTM A510M SAE1012 370-500 370-540 (16) (16)
ASTM A510M SAE1013 370-500 370-540 (16) (16)
ASTM A510M SAE1015 370-500 370-540 (16) (16)
ASTM A510M SAE1016 370-500 370-540 (16) (16)
ASTM A510M SAE1017 370-500 370-540 (16) (16)
ASTM A510M SAE1018 370-500 370-540 (16) (16)
ASTM A510M SAE1019 370-500 370-540 (16) (16)
ASTM A510M SAE1020 405-525 440-650 (15) (14)
ASTM A510M SAE1021 405-525 440-650 (15) (14)
ASTM A510M SAE1022 405-525 440-650 (15) (14)
ASTM A510M SAE1023 405-525 440-650 (15) (14)
ASTM A510M SAE1030 410-550 440-650 (14) (14)
ASTM A510M SAE1035 • 440-650 * (14)
ASTM A510M SAE1049 • 440-650 * (14)
ASTM A510M SAE1050 • 440-650 * (14)
ASTM A510M SAE1053 • 440-650 * (14)
Mechanical properties:
* mechanical properties are to be agreed with a consumer.
Packing: in coils of weight 1100-2100 kg.Coil weight up to 1750 mm; external diameter up to 1250 mm; internal diameter 850 mm.Binding with wire rod of diameter 5,5-7,0 mm: 4 radial and 1 transversal.Wire rod Ø 6,5, Ø 8,0 mm may be also packed in coils of weight up to 550 kg. Dimensions of a coil: height up to 400mm; OD – 1400-1450 mm; ID – 850-900 mm. Binding in 2 places.
Qualitative structural steel for cold extrusion and heading as per DSTU 3684-98, TU U 27.1-4-531-2002 and Gost 14959-79
Dimensions: ØØ 5,5–18 mm
Steel gradeTotal mass fraction, %
C Mn Si S max P max Cr max Ni max Cu max
10 0,07-0,14 0,35-0,60 0,17-0,30 0,035 0,035 0,25 0,25 0,25
10kp 0,07-0,14 0,25-0,050 max 0,03 0,035 0,035 0,25 0,15 0,25
20 0,1 7-0,24 0,35-0,60 0,17-0,30 0,035 0,035 0,25 0,25 0,25
20kp 0,17-0,24 0,25-0,50 max 0,07 0,035 0,035 0,25 0,25 0,25
20H 0,17-0,23 0,35-0,60 0,17-0,30 0,035 0,035 0,7-1,0 0,3 0,3
23G2A 0,21-0,27 1,30-1,60 0,12-0,27 0,025 0,025 0,3 0,3 0,3
23HGA 0,20-0,26 1,1-1,4 0,12-0,2 0,025 0,025 0,60-0,90 0,3 0,3
25HGNMA 0,20-0,26 1,1-1,4 0,12-0,27 0,025 0,025 0,4-0,6 0,4-0,7 0,15
35 0,32-0,40 0,35-0,60 0,17-0,30 0,035 0,035 0,25 0,25 0,25
40 0,37-0,45 0,35-0,60 0,17-0,30 0,035 0,035 0,25 0,25 0,25
40X 0,36-0,44 0,50-0,80 0,17-0,30 0,035 0,035 0,8-1,1 0,3 0,3
45 0,42-0,50 0,35-0,60 0,17-0,30 0,035 0,035 0,25 0,25 0,25
60C2G 0,55-0,65 0,70-1,0 1,8-2,2 S + P = max 0,6 0,3 0,25 0,2
Chemical composition:
Steel grade
Mechanical properties
Ultimate Tensile Strength N/mm2, min.
Yield point, N/mm2, min. Reduction of area, %, min.
10 440 ** 55
10kp 440 ** 55
20 520 ** 45
20kp 510 ** 45
20H 560 ** 50
23G2A* 1030 930 50
23HGA* 1030 930 50
25HGNMA* 1180 980 50
35 640 ** 45
40 660 ** 45
40H 720 ** 45
45 680 ** 45
60C2G 1470 1325 25
Mechanical properties:
* specified mechanical properties are obtained after thermal treatment;** mechanical properties are to be agreed with a consumer.
Packing: in coils of weight 1700-2100 kg. Height of a coil up to 1750 mm; OD up to 1250 mm; ID – 850 mm. Binding with wire rod of diameter 5,5-7,0 mm: 4 radial and 1 transversal. Rolled stock of Ø 10,0 10kp may be also packed in coils of weight up to 550 kg. Coil dimensions: height up to 400 mm, OD 1400-1450 mm, ID – 850-900 mm. Binding in 2 places.Precipitation group: 50-50 %, 50-66 %.Dimensions and Ultimate deviations: ØØ 5,5/9,0 +0,1/-0,2 mm, ØØ 10,0/14,0 +0,1/-0,3 mm – for WM 150-1 and wire line PU-3; ØØ 14,0/19,0 +0,3/-0,5 mm, ØØ 20,0/25,0 +0,4/-0,5 mm, ØØ 26,0/30,0 +0,3/-0,7 mm, ØØ 31,0/36,0 +0,4/-0,7 mm – for merchant line PU-3; ØØ 6,0/8,0 +0,3/-0,5 mm – for WM 250-3.
Rope wire rod as per DSTU 3683/98 and its analogues as per ASTM – A – 510M
Diameter: 5,5-14,0 mm. Ultimate deviations: +0,3/-0,5 mm
Chemical composition:
StandardSteel grade
Fraction of total mass, %
C Mn SiS P S+P Cr Ni Cu N As
max
DSTU 3683-98 500,47-0,55
0,40-0,70
0,25-0,45
0,03 0,03 0,055 0,1 0,1 0,15 0,008 0,08
DSTU 3683-98 550,52-0,60
0,40-0,70
0,25-0,45
0,03 0,03 0,055 0,1 0,1 0,15 0,008 0,08
DSTU 3683-98 600,57-0,65
0,40-0,70
0,25-0,45
0,03 0,03 0,055 0,1 0,1 0,15 0,008 0,08
DSTU 3683-98 650,62-0,70
0,40-0,70
0,25-0,45
0,03 0,03 0,055 0,1 0,1 0,15 0,008 0,08
DSTU 3683-98 700,67-0,75
0,40-0,70
0,25-0,45
0,03 0,03 0,055 0,1 0,1 0,15 0,008 0,08
ASTM A510M SAE10550,50-0,60
0,60-0,90
* 0,05 0,04 - - - - - -
ASTM A510M SAE10590,55-0,65
0,50-0,80
* 0,05 0,04 - - - - - -
ASTM A510M SAE10600,55-0,65
0,60-0,90
* 0,05 0,04 - - - - - -
ASTM A510M SAE10640,60-0,70
0,50-0,80
* 0,05 0,04 - - - - - -
ASTM A510M SAE10650,60-0,70
0,60-0,90
* 0,05 0,04 - - - - - -
ASTM A510MSAE
10690,65-0,75
0,40-0,70
* 0,05 0,04 - - - - - -
ASTM A510M SAE10700,65-0,75
0,60-0,90
* 0,05 0,04 - - - - - -
ASTM A510MSAE
10740,70-0,80
0,50-0,80
* 0,05 0,04 - - - - - -
ASTM A510MSAE
10750,70-0,80
0,40-0,70
* 0,05 0,04 - - - - - -
* Si content is specified by agreement with the customer within the limits:max 0,05 %max 0,10 %0,10-0,20 %0,15-0,35 %
Mechanical properties are specified by agreement with a consumerPacking: in coils of weight 1100-2100 kg. Height of a coil up to 1750 mm; OD up to 1250 mm; ID – 850 mm. Binding with wire rod of diameter 5,5-7,0 mm: 4 radial and 1 transversal.Wire rod of Ø 6,5, Ø 8,0 may be also packed in coils of weight up to 550 kg. Coil dimensions: height up to 400 mm, OD 1400-1450 mm, ID – 850-900 mm. Binding in 2 places.
Wire rod of low-carbon and alloyed steel as per TU 14-15-345-94, TU 14-15-346-94, TU U 27.1-4-548-2003 (for manufacture of the electrode wire)
Diameter: 5,5-14,0Ultimate deviations: +0,3/-0,5 mm
Chemical composition:
Steel gradeFraction of total mass, %
C Mn Si max S max P max Cr max Ni max Cu max Al max Mo Zr
SV08 max 0,1 0,35-0,60 0,03 0,04 0,04 0,15 0,3 0,25 0,01 - -
SV08A max 0,1 0,35-0,60 0,03 0,03 0,03 0,12 0,25 0,25 0,01 - -
SV08G1NMA 0,09 1,00-1,50 0,20-0,45 0,015 0,02 0,3 0,50-0,70 0,25 0,05 - -
SV08G2S 0,05-0,12 1,60-2,10 0,70-1,00 0,025 0,03 0,2 0,25 - - - -
SV08G2TS 0,05-0,12 1,60-2,10 0,70-1,00 0,025 0,03 0,2 0,25 - - - 0,1
SV08GA 0,1 0,80-1,10 0,06 0,025 0,03 0,1 0,25 0,25 - - -
SV08GSMT 0,06-0,11 1,00-1,30 0,40-0,70 0,025 0,025 0,3 0,3 - - 0,20-0,40 -
SV08HM 0,05-0,10 0,35-0,60 0,12-0,40 0,025 0,02 0,85-1,25 0,3 0,25 - 0,50-0,70 -
SV10GH 0,12 0,90-1,20 0,15-0,35 0,025 0,03 0,2 0,90-1,20 0,25 - - -
SV10NMA 0,07-0,12 0,40-0,70 0,12-0,35 0,025 0,02 0,2 1,00-1,50 0,25 - 0,40-0,55 -
Mechanical properties:
Steel grade
Mechanical properties
Ultimate Tensile Strength, N/mm2, min.
Reduction of area, %, min.
SV08 420 60
SV08A 420 60
SV08G1NMA 850 48
SV08G2S 690 48
SV08G2TS 850 87
SV08GA 735 48
SV08GSMT 690 48
SV08HM 735 48
SV10GN 735 48
SV10NMA 735 48
Packing: in coils of weight 1100-2100 kg. Height of a coil up to 1750 mm; OD up to 1250 mm; ID – 850 mm. Binding with wire rod of diameter 5,5-7,0 mm: 4 radial and 1 transversal.Wire rod of Ø 6,5 Ø 8,0 mm may be also packed in coils of weight up to 550 kg. Coil dimensions: height up to 400 mm, OD 1400-1450 mm, ID – 850-900 mm. Binding in 2 places.
Weldable plain reinforcing steel bars of class as per DSTU 3760-98, class A240 S and BS 4449-97, class 250
Dimensions: ØØ 5,5-28 mm
Grade A240S mass fraction of elements according to ladle sample as per DSTU 3760-98 %, max
C Mn Si S P Cr Ni Cu N As Carbon equivalent, Ce
0,24 0,6 0,15 0,05 0,05 0,3 0,3 0,3 0,012 0,08 0,52
Grade 250 mass fraction of elements according to ladle sample as per BS 4449-97 %, max
C S P As Carbon equivalent, Ce
0,25 0,06 0,06 0,012 0,42
Mechanical properties:
Specification Class
Mechanical properties
Ultimate Tensile Strength (N/mm2) (min)Yield point,
(N/mm2) (min)Elongation, %, min.
DSTU 3760 A240S 370 240 25
BS 4449 Gr 250 287,5 250 22
Packing: - 10-28 mm in coils of weight up to 5 t, length up to 12 000 mm (+100 mm);- 5,5-14,0 mm in coils of weight 1100-2100 kg.Coil weight up to 1750 mm; OD up to 1250 mm; ID 850 mm.Binding with wire rod of diameter 5,5-7,0 mm: 4 radial and 1 transversal.- 6,5, 8,0 mm in coils of weight up to 550 kg. Dimensions of a coil: height up to 400 mm; OD – 1400-1450 mm; ID – 850-900 mm. Binding in 2 places.
Num
ber
Cou
ntry
Ukr
aine
Russ
ia
Gre
at B
ritai
nG
erm
any
USA
Can
ada
Kore
aTu
nis
Stan
dard
DST
U3
76
0D
STU
37
60
GO
ST R
52
54
4BS
44
49
*D
IN 4
88
*AS
TMA6
15
**AS
TMA6
15
**C
AN/C
SA-G
30
.1B
KSD
35
04
*N
T 2
6.0
5
Cla
ss
A40
0/A
50
0A8
00
/A1
00
0A5
00
Gra
de 4
60
Bst5
00
Gra
de4
0G
rade
60
40
0W
/50
0W
SD 4
0/5
0C
lass
40
Dim
ensi
ons,
mm
#88
88
88
#10
10
10
101
01
09
,53
(#3
)9
,53
(#3
)1
1,3
9,5
31
0
#12
12
12
121
21
21
2
#13
12
,70
(#4
)1
2,7
0 (
#4)
12
,7
#14
14
14
141
41
4
#15
16
#16
16
16
161
61
61
5,8
8 (
#5)
15
,88
(#5
)1
5,9
16
#18
18
18
18
#19
19
,1
#20
20
20
20
19
,05
(#6
)1
9,0
5 (
#6)
19
,52
0
#22
22
222
2,2
3 (
#7)
22
,2
#25
25
252
52
52
5,8
0 (
#8)
25
,22
5,4
25
#28
28
282
82
9,0
3 (
#9)
#29
28
,6
#30
29
,9
#32
32
323
23
1,7
5 (
#10
)3
1,8
32
Stee
l bar
s m
anuf
actu
red
by O
JSC
“A
rcel
orM
itta
l Kry
viy
Rih
”
Not
es:
*By
agre
emen
t w
ith a
con
sum
er m
anuf
actu
ring
of t
he s
teel
bar
s no
.14,
18, 2
2 a
nd 2
8 fo
r BS
44
49,
#18
, 22
and
32
for D
IN 4
88
and
# 1
6, 1
9, 2
2, 2
5, 2
9 a
nd 3
2 fo
r KS
D 3
504-
198
8.
** In
Am
eric
an s
tand
ard
AST
M A
615
the
inch
sys
tem
of m
easu
res
is u
sed.
D
imen
sion
s in
inch
es a
re g
iven
in p
aren
thes
es. F
or e
xam
ple:
#3
– is
read
as
num
ber t
hree
or t
hree
eig
hth
of in
ch.
Stan
dard
Cla
ssD
imen
sion
(mm
)
Mas
s fr
actio
n of
ele
men
ts, %
Mec
hani
cal p
rope
rtie
s
CM
nS
SP
Ce
Yiel
d po
int
N/m
m2 (
min
)
Tens
ile
stre
ngth
N
/mm
2 (
min
)Yi
eldi
ng fl
owEl
onga
tion
%
(min
)
DST
U3
76
0A4
00
S
8-1
60
,17
-0,2
20
,50
-0,9
00
,15
0,0
50
,05
0,5
24
00
50
01
6
18
-22
0,1
7-0
,22
0,8
0-1
,20
0,1
50
,05
0,0
50
,52
40
05
00
16
25
-32
0,1
7-0
,22
1,0
0-1
,50
0,1
50
,04
0,0
40
,52
40
05
00
16
DST
U3
76
0A5
00
S
8-1
60
,17
-0,2
20
,50
-0,9
00
,15
0,0
50
,05
0,5
25
00
60
01
4
18
-22
0,1
7-0
,22
0,8
0-1
,20
0,1
50
,05
0,0
50
,52
50
06
00
14
25
-32
0,1
7-0
,22
1,0
0-1
,50
0,1
50
,04
0,0
40
,52
50
06
00
14
DST
U3
76
0A8
00
S8
-32
0,3
22
,32
,40
,04
0,0
48
00
10
00
8
DST
U3
76
0A1
00
0S
8-3
20
,32
2,3
2,4
0,0
40
,04
10
00
12
50
7
DIN
48
8BS
t50
08
-28
0,2
20
,05
0,0
55
00
55
01
0
ASTM
A61
54
03
-80
,28
-0,3
80
,5-0
,80
,10
,05
0,0
43
00
42
01
1
ASTM
A61
56
03
-10
0,3
2-0
,38
0,8
-1,2
0,6
-0,9
0,0
45
0,0
44
20
62
07
BS4
44
92
50
8-1
60
,25
0,0
60
,06
0,4
22
50
42
01
,15
22
BS4
44
94
60
8-3
20
,25
0,0
50
,05
0,5
14
60
62
01
,05
14
CAN
/CSA
40
0W
10
-35
0,3
1,6
0,5
0,0
35
0,0
35
40
05
00
12
CAN
/CSA
50
0W
10
-35
0,3
1,6
0,5
0,0
35
0,0
35
54
06
25
12
KS D
35
04
SD4
00
,29
1,8
0,5
50
,05
0,0
50
,55
39
25
59
16
KS D
35
04
SD5
00
,29
1,8
0,5
50
,05
0,0
50
,64
90
61
81
2
NT
26
.05
40
10
-20
0,5
1,6
0,4
50
,05
0,0
50
,55
41
0
49
01
4
22
-32
0,5
1,6
0,4
50
,05
0,0
50
,55
39
0
Num
ber
Inde
x
Stan
dard
DST
U3
76
0BS
44
49
DIN
48
8AS
TMA6
15
ASTM
A61
5C
AN/C
SA-G
30
.18
KSD
35
04
NT2
6.0
5
A40
0/A
50
0/
A80
0/A
10
00
Gra
de 4
60
Bst5
00
Gra
de4
0G
rade
BO4
00
W/5
00
WSD
40
/50
Cla
ss 4
0
No.
8S
cros
s-se
ctio
n, m
m2
50
,35
0,3
50
,35
0,3
Mas
s of
1 ru
nnin
g m
eter
0,3
95
0,3
95
0,3
95
0,3
95
No.
10
S cr
oss-
sect
ion,
mm
28
,57
8,5
78
,57
17
11
00
71
,37
8,5
Mas
s of
1 ru
nnin
g m
eter
0,6
10
,61
60
,61
70
,56
0,5
60
,78
50
,56
0,6
17
No.
12
S cr
oss-
sect
ion,
mm
21
13
11
3,1
11
3,1
11
3,1
Mas
s of
1 ru
nnin
g m
eter
0,8
88
0,8
88
0,8
88
0,8
88
No.
13
S cr
oss-
sect
ion,
mm
21
29
12
91
26
,7
Mas
s of
1 ru
nnin
g m
eter
0,9
94
0,9
94
0,9
95
No.
14
S cr
ass-
sect
ion,
mm
21
54
15
41
54
Mas
s of
1 ru
nnin
g m
eter
1,2
11
,21
1,2
08
No.
15
S cr
oss-
sect
ion,
mm
22
00
Mas
s of
1 ru
nnin
g m
eter
1,5
7
No.
16
S cr
oss-
sect
ion,
mm
22
01
20
1,1
20
11
99
19
91
98
,62
01
Mas
s of
1 ru
nnin
g m
eter
1,5
81
,57
91
,58
1,5
52
1,5
52
1,5
61
,57
8
No.
18
S cr
ass-
sect
ion,
mm
22
54
Mas
s of
1 ru
nnin
g m
eter
2
No.
19
S cr
oss-
sect
ion,
mm
22
86
,5
Mas
s of
1 ru
nnin
g m
eter
2,2
5
No.
20
S cr
oss-
sect
ion,
mm
23
14
31
4,2
31
42
84
28
43
00
31
4
Mas
s of
1 ru
nnin
g m
eter
2,4
72
,46
62
,47
2,2
35
2,2
35
2,3
55
2,4
66
No.
22
S cr
oss-
sect
ion,
mm
23
80
38
73
87
,1
Mas
s of
1 ru
nnin
g m
eter
2,9
83
,04
23
,04
No.
25
S cr
ass-
sect
ion,
mm
24
91
49
0,9
49
15
10
50
05
,06
74
91
Mas
s of
1 ru
nnin
g m
eter
3,8
53
,85
43
,85
3,9
73
3,9
25
3,9
83
,85
4
No.
28
S cr
oss-
sect
ion,
mm
26
16
61
66
45
Mas
s of
1 ru
nnin
g m
eter
4,8
34
,83
5,0
6
No.
29
S cr
oss-
sect
ion,
mm
26
,4
Mas
s of
1 ru
nnin
g m
eter
5,0
4
No.
30
S cr
oss-
sect
ion,
mm
27
00
Mas
s of
1 ru
nnin
g m
eter
5,4
95
No.
32
S cr
oss-
sect
ion,
mm
28
04
80
4,2
81
97
,94
28
04
Mas
s of
1 ru
nnin
g m
eter
6,3
16
,31
36
,40
46
,23
6,3
13
Products of the coke and the by-product plant
Crude coal benzene is produced in accordance with TU U 24.1-00190443-003-2003
Physicochemical indices:
Index Characteristics and standart
1. AppearanceClear liquid, which doesn’t contain suspended particles,
including water drops
2. Colour Chlorine
3. Mass fraction of a distilled product up to 180 °C, %, min. 91
4. Mass fraction of a distilled product up to 140°C, %, min. Not standardized
5. Mass fraction of benzene, %, min. 70
6. Mass fraction of gun formers, %, min. Standardized
Coke nuts is produced in accordance with TU U 322-00190443-120-97
Physicochemical indices:
Packing: in bulk.Usage: crude coal benzene is used for obtaining aromatic hydrocarbons of benzene series
Index
Norm for class and grade
10-25 mm
KO1 K02 K03
1. Ash content, max. 11 13 15
2. Mass fraction of total moisture, max. 20 20 20
3. Mass fraction of lumps of size, max.
more than 25 mm 10 10 10
less than 100 mm 9 12 15
Coal tar
Physicochemical indices:
Coal tar is produced in accordance with the following specifications TU U 322-00190443-003-96
Index
Norms for grades and brands
A B C D
1 brand 2 brand 1 brand 2 brand
1. Density, at 200C, kg/m3, max. 1190 1200 1200 1220 1220 1240
2. Mass fraction of water, %, max. 3 4 3 4 4 7
3. Mass fraction for the substances insoluble in toluol on conversion to anhydrous tar, % max.
8,0 11,0 12,0 13,0 - -
4. Mass fraction for the substances insoluble in quinoline on conversion to anhydrous tar, %, max.
3,0 4,0 6,0 6,0 - -
5. Viscosity, range - - - - 2-20 20-40
6. Mass fraction of naphthalene on conversion to anhydrous tar, %, max.
- - - - 10 -
to anhydrous tar, %, max. to anhydrous tar, %, max. 0,08 0,10 0,08 0,10 - -
Heavy tar from acid pitch for road building with TU U 322-00190443-131-98
Index Norm for grade STU
1. Relative viscosity, c 5-20
2. Mass fraction of water, %, max. 5
3. Breakup, mass fraction, %
distilled product up to 170 °C, max. 1,5
distilled product up to 270 °C, max. 20
distilled product up to 300 °C, max. 30
4. PH of aqueous extract, min 6
5. Mass fraction of the substances soluble in water (on conversion to anhydrous product), %, max.
8
Packing: tar is delivered in tank-cars.Use: heavy tar is used as a binder for highway toppings.
Ammonium sulphate – by-product of the coke and by-product production process of ArcelorMittal Kryviy Rih
Physicochemical indices:
Index Norm for 1-st Grade
1. Appearance White or achromatous cristails
2. Mass fraction of nitrogen on conversion to dry substance, %, max. 21
3. Mass fraction of water, %, max 0,3
4. Mass fraction of free sulphuric acid, %, max 0,05
5. Mass fraction of residue insoluble in water, %, max. 0,05
Friability, % 100
Packing: in bulk, in sacks of weight up to 45 kg.Use: ammonium sulphate is intended for use in various branches of industry, as well as in agriculture.
Packing: tar is delivered in tank-cars.Use: coal-tar is intended for the processing into marketable products at by-product and coke plants as well as for use in various brunches for manufacture of electrodes, electric carbon articles, etc.
Gaseous and liquid nitrogen
Gaseous and liquid nitrogen is produced in accordance with GOST 9293-74
Physicochemical indices:
IndexNorm for gaseous and liquid nitrogen
1 brand 2 brand
1. Inclusion volume fraction of nitrogen, %, min.
99,6 99
2. Inclusion volume fraction of oxygen, %, max.
0,4 1
3. Inclusion volume fraction of water vapour in gaseous nitrogen, %, max.
0,009 as per Item 3.6
Packing: gaseous nitrogen – in vessels, liquid – in bulk.Use: gaseous nitrogen is intended for creating inert atmosphere during production, storage and handling of easily oxidable products, at the high-temperature metal treatment processes, which do not interact with nitrogen, for preservation of closed metal ves-sels and pipelines and other purposes.Liquid nitrogen is used as a coolant as well as (after gasification) for the purposes, stated above for gaseous nitrogen.
Gaseous and liquid argon
Gaseous and liquid argon is produced in accordance with GOST 10157-79
Physicochemical indices:
Index
Norm for gaseous and liquid nitrogen
1 brand 2 brand
1. Inclusion volume fraction of argon, %, min. 99,993 99,987
2. Inclusion volume fraction of oxygen, %, max. 0,0007 0,002
3. Inclusion volume fraction of nitrogen, %, max. 0,005 0,01
4. Inclusion volume fraction of water vapour, % 0,0009 0,001
that corresponds to the temperature of saturating argon with water vapours at pressure 101,3 kPa (760 mm of mercury column), °c, max.
minus 61 minus 58
5. Inclusion volume fraction of coal coal-containing compounds on conversion to CO2, %, max.
0,0005 0,001
Packing: gaseous argon – in vessels, liquid – in bulk.Use: gaseous and liquid nitrogen is intended for use as a shielding medium during weld-ing, cutting and meltingof active and less-common metals and their alloys, aluminium, aliminium and mag-nesium alloys, stainless chromonickel heat-resistant alloys and alloyed steels of various grades, as well as during metal purification in metallurgy.
Industrial gaseous and liquid oxygen
Physicochemical indices:
Industrial liquid oxygen is produced in accordance with GOST 6331-78
IndexNorm
1 brand 2 brand 3 brand
1. Inclusion volume fraction of oxygen, %, max. 99,5 99,5 99,2
2. Mass concentration of water vapour at pressure 101,3 kPa (760 mm of mercury column), g/m3, max.
0,05 0,07 0,07
3. Inclusion volume fraction of hydrogen, %, max. 0,3 0,5 0,7
IndexNorm
1 brand 2 brand 3 brand
1. Inclusion volume fraction of oxygen, %, max 99,7 99,7 99,5
2. Mass concentration of water vapour at temperature 20 °C and pressure 101,3 kPa (760 mm of mercury column), g/m3, max.
2 2,5 3
Industrial gaseous oxygen is produced in accordance with GOST 6331-78
Packing: gaseous argon – in vessels, liquid – in bulk.Use: industrial gaseous oxygen is used for flame processing of metals and for other technical purposes.Industrial liquid oxygen is used after its gasification for flame processing of metals and for other technical purposes.
Kryptonxenon mixture
Physicochemical indices: Kryptonxenon mixture is produced in accordance with GOST 10218-77
Index Norm
1. Inclusion volume fraction of krypton, %, min. 99,5 (together with xenon)
2. Inclusion volume fraction of xenon, %, min. 5
3. Inclusion volume fraction of nitrogen, %, max. 0,4
4. Inclusion volume fraction of oxygen, %, min. 0,05
5. Inclusion volume fraction of methane, %, min. 0,01
6. Inclusion volume fraction of carbon dioxide, %, max. 0,01
7. Inclusion volume fraction of water vapour, %, max., that correspondsto the saturation temperature of kryptonxenon mixture with water vapours at pressure 101,3 kPa (760 mm of mercury column), OC, max. minus 42
0,01
Packing: in vessels.Use: kryptonxenon mixture is used for production of krypton and xenon for electrotechnical industry.
Gaseous neon-helium concentrate
Gaseous neon-helium concentrate is produced in accordance with TU U 24.1-14299304-004-2002
Physicochemical indices:
Index Norm
1. Inclusion volume fraction of helium, %, min. 22,5
2. Inclusion volume fraction of neon, %, min. 67,5
3. Inclusion volume fraction of hydrogen, %, max 3,0
4. .Inclusion volume fraction of nitrogen, %, max 7,0
5. Inclusion volume fraction of oxygen+argon, %, max 0,001
Packing: the mix is delivered in steel cylinders.Use: gaseous neon-helium concentrate is used for production of neon and helium.
Blast-furnace slag granulated for cement production
Blast-furnace slag granulated for cement production is produced in accordance with GOST 3476-74
Physicochemical indices:
Index Norm
Quality coefficient, min. 1,2
Alumina content (A2O
3), %, min. Not standardized
Magnesium oxide content (MgO), %, max 4
Titanium dioxide (TiO2), %, max. 4
Manganese monoxide content (MnO), %, max. 15-20
Humidity, % (depending upon weather conditions)
Blast-furnace slag granulated for road building is produced in accordance with TU U B.2.7-45.2-24432974-001-2003
Blast-furnace slag granulated for road building
Physicochemical indices:
Index Value
Bulk density, kg/m3 , max. 1300
Humidity, %, max. 18
Content of fractions of 5 mm size, % as per mass, min. 25
Content of inclusions, fractions 70-150 mm, % as per mass, min 5
Content of metallic inclusions (scrap), % max. 5
Content of admixtures, %, max. 3
Packing: in bulk.Use: blast-furnace slag granulated for road building is used as road-building materials, intended for the foundation layers of the roads of II-V categories in all climatic zones of Ukraine in accordance with norm DBN B.2.3-4.
Blast-furnace dumped slag for road construction
Blast-furnace dumped slag for road construction is produced in accordance with TU U B.2.7-45.2-24432974-002-2003
Index Value
Bulk density, kg/m3 , max. 1400
Humidity, %, max. 15
Content of fractions of 5 mm size, % as per mass, min. 25
Content of inclusions, fractions 70-150 mm, % as per mass, min 10
Content of metallic inclusions (scrap), %, max. 5
Content of admixtures, %, max. 3
Packing: in bulk.Use: Blast-furnace dumped slag is intended in road construction for the foundation layers of the roads of II-V categories in all climatic zones of Ukraine in accordance with norm DBN B.2.3-4.
Burnt lime
Burnt lime is produced in accordane with TU U 26.5-24432974-004:2007004:2007
Grade
Mass fraction, %Change of the mass during
calzinationCaO+MgO,min
MgO, max
I-1 88,00 22,00 9,00
I-2 80,00 6,00 17,00
Lime fraction-10-50 mm
Calcareous and limestone dust Calcareous and limestone dust is produced in accordane with TU U 26.5-24432974-004:2007
Physicochemical indices:
Packing: in bulk.Use: lime is widely used in various branches of the industry and agriculture.
Grade (CaO+Mg) total, %
IIO min 65
ArcelorMittal’sWorldwide Sales Offices
China BeijingUnit 503-504, Tower B, Kelun Building2A Guanghua Lu, BeijingChinaTel.: + 86 10 65811031/65811021/65811071Fax + 86 10 65811032E-mail: [email protected]
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Chengdu OfficeUnit 21-1-C, llnd stage,Zhong Hua Yuan, Chengdu,Sichuan, ChinaTel. +86 288 2999536Fax +86 288 2999538E-mail: [email protected]
TurkeySuite number 2203, Swiss TowerBayildim Caddesi No.2 MackaBesiktas 80680IstanbulTurkeyTel. +902123277725Fax + 90 212 327 7726E-mail: [email protected]
Singapore101, Cecil street No.8,Tong Engg, Singapore 0106,Tel. +65 6220 6552Fax: +65 6220 4047E-mail: [email protected]
Registered Office -15th Floor,Hofplein 20,3032 AC Rotterdam,The Netherlands.Tel. +31 10 217 8800Fax +31 10 217 8850
DubaiLOB 15523, PO Box 17619 Jebel All Free Zone, Dubai, UAE Tel.: +97148811662/5 Fax: +97148811663/4E-mail: [email protected]
IranNumber 44th Floor, Sayeh TowersValli Asr Avenue, TehranIranTel.: + 98 21 2019907/08/09Fax + 98 21 2019910E-mail: [email protected]
RussiaD204,113/1 Lenin AvenueMoscowRussiaTel. + 7 095 956 5891Fax + 7 095 956 5892E-mail: [email protected]
Kazakhstan1, Republic Avenue,ArcelorMittal, karaganda RegionKazakhstan - 101407Tel.: +7 32139 69935/69931Fax: +7 32139 16799/69835E-mail: [email protected]@arcelormittal.com
ArcelorMittal
Luxembourg:19, avenude la LibertéL – 2930 LuxembourgTel. +352 4792 2360
London:7th Floor, Berkeley Square HouseBerkeley SquareLondon W1J6DAUnited KingdomTel. +44 (0)20 7629 7988
www.arcelormittal.com
ArcelorMittal Kryviy Rih
Plant Office -1, Ordzhonikidze Street,Kryviy Rih,Dniepropetrovskiy Region, 50095,Ukraine Tel. +3 80564 783080Fax +7 80564 929878
Tel. +9714 8811665Fax +9714 8811663E-mail: [email protected]: [email protected]: [email protected]