GOST 1050-74 High-quality structural carbon steel. Specifications

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  • General data Main differences between Steel 20 and Steel 20A
  • Decoding the brand
  • Characteristics of steel 20
  • Structural quality carbon steel 20
  • Composition of steel grade 20
      Characteristics of material 20L
  • Application of steel 20
  • Areas of application
  • Advantages and disadvantages
  • Total information

    Substitute
    Steel 15, Steel 25
    Type of delivery
    Long products, including shaped steel: GOST 1050-74, GOST 2590-71, GOST 2591-71, GOST 2879-69, GOST 8509-86, GOST 8510-86, GOST 8240-72, GOST 8239-72.
    Calibrated rod GOST 7417-75, GOST 8559-75, GOST 8560-78, GOST 10702-78.

    Polished rod and silver steel GOST 14955-77, GOST 10702-78.

    Thick sheet GOST 1577-81, GOST 19903-74.

    Thin sheet GOST 16523-70.

    Tape GOST 6009-74, GOST 10234-77.

    Strip GOST 1577-81, GOST 103-76, GOST 82-70.

    Wire GOST 5663-79, GOST 17305-71.

    Forgings and forged blanks GOST 8479-70.

    Pipes GOST 10704-76, GOST 10705-80, GOST 8731-87, GOST 8732-78, GOST 8733-87, GOST 5654-76, GOST 550-75.

    Purpose
    After normalization or without heat treatment, crane hooks, couplings, bearing shells and other parts operating at temperatures from -40 to 450 ° C under pressure, after chemical treatment - gears, worms and other parts that require high surface hardness with low core strength .

    The main differences between Steel 20 and Steel 20A

    The addition of the letter “A” at the end of the designation of Steel 20 indicates that Steel 20A belongs to the category of high-quality steel. The main differences in the chemical composition are more stringent requirements for the Sulfur (S) content and broader requirements for the Carbon (C) content (see table).

    Chemical element%
    Steel 20Steel 20A
    Carbon (C)0.17-0.240.15-0.25
    Sulfur (S), no more0.040.035

    Therefore, Steel 20A is less susceptible to embrittlement.

    Steel 10 structural carbon quality

    Substitutes

    Steel 08, , 08kp.

    Foreign analogues

    EuropeCk10(2), C 10(2)
    USA (AISI, ASTM)1010, M1010, M1012, 1110, 1012
    Japan JISS10C, S09CK

    Decoding

    The number 10 means that the average carbon content in steel is 0.10%.

    Type of delivery

    • Long products, including shaped steel: GOST 1050-88, GOST 2590-88, GOST 2591-88, GOST 2879-88, GOST 8509-93, GOST 8510-86, GOST 8240-89, GOST 8239-89.
    • Calibrated rod GOST 10702-78, GOST 7417-75, GOST 8559-75, GOST 8560-78.
    • Polished rod and silver steel GOST 10702-78, GOST 14955-77.
    • Thick sheet GOST 1577-93, GOST 19903-74.
    • Thin sheet GOST 16523-89.
    • Tape GOST 6009-74. GOST 10234-77.
    • Strip GOST 1577-93, GOST 103-76, GOST 82-70.
    • Wire GOST 17305-91, GOST 5663-79.
    • Pipes GOST 8731-74, GOST 8732-78, GOST 8733-74, GOST 8734-75, GOST 10705-80, GOST 10704-91, GOST 1060-83, GOST 5654-76, GOST 550-75.

    Characteristics and description

    Steel 10 belongs to the structural low-carbon unalloyed high-quality steels and is characterized by high plastic properties and is used primarily for the manufacture of products by cold stamping, heading and drawing. To increase strength and improve machinability, low-carbon steel grade 10 is subjected to normalization from a temperature of 930-950 ° C.

    Purpose

    Parts operating at temperatures from -40 to 450 °C, which are subject to high plasticity requirements. After chemical treatment - parts with high surface hardness but low core strength.

    Temperature of critical points, °C

    Ac1Ac3Ar3Ar1
    732870854680

    Chemical composition, % (GOST 1050-88)

    CSiMnCrSRCuNiAs
    no more
    0,07-0,140,17-0,370,35-0,650,150,040,0350,250,250,08

    Chemical composition, % (GOST 1050-2013)

    steel gradeMass fraction of elements, %
    CSiMnPSCrNiCu
    no more
    100,07-0,140,17-0,370,35-0,650,0300,0350,150,300,30

    Wear resistance of case-hardened steel 10

    Heat Treatment CharacteristicsVickers hardness HVWear, mg
    samplebronze liner
    Cementation to a depth of 1.5 mm, hardening at 780°C, tempering at 170°C7824,03,0

    Mechanical properties

    GOSTDelivery statusσ0.2, MPaδ5(δ4), %Ψ, %Hardness HB, no more
    no less
    GOST 1050-88Hot-rolled forged steel, calibrated and silver steel of the 2nd category after normalization3353155
    GOST 10702-78Steel calibrated and calibrated with special finishing:
    after annealing or tempering335-45055143
    after spheroidizing annealing315-41055143
    cold-worked without heat treatment390850187
    GOST 1577-93Normalized or hot rolled strip3353155
    GOST 16523-89 (transverse samples)Hot rolled sheet295-410(24)
    Cold rolled sheet295-410(25)
    GOST 4041-71 (transverse samples)Heat-treated sheet of categories 1 and 2295-42032117
    GOST 8731-74Hot-deformed, heat-treated pipe35524137
    GOST 8733-74Cold- and heat-deformed heat-treated pipe34524137
    Cementation at 920-950 °C [81]; hardening from 790-810 °C in water; holiday at 180-200 °C, cool. on air 3902555St. HRCs 137*1; 63*2
    • *1 Cores.
    • *2 Surfaces.

    Mechanical properties at elevated temperatures

    tsp., °Сσ0.2, MPaσв, MPaδ5, %Ψ, %KCU, J/cm2
    202604203269221
    2002204852055176
    3001755152355142
    400170355247098
    500160255196378

    NOTE. Normalization at 900-920 °C, cool. on air.

    Endurance limit

    Heat treatmentσ-1, MPaτ-1, MPan
    Normalization at 900-920°C157-21651108

    NOTE. σ4001/1000 = 108 MPa, σ4001/100000 = 78 MPa, σ4501/10000 = 69 MPa, σ4501/100000 = 44 MPa

    Impact strength KCU

    Heat treatmentKCU, J/cm2, at temperature, °C
    +20-20 (-30)-40 (-50)-60
    Absent23519615778
    Normalization [81]73-265(203-216)(179)
    Annealing [28]59-24549-17445-8319-42

    NOTE. Rod with a diameter of 35 mm.

    Technological properties

    Forging temperature, °C: beginning 1300, end 700. Cooling in air. Weldability - weldable without restrictions, except for parts after chemical-thermal treatment. Welding methods: RDS, ADS submerged arc and gas shield, KTS. Cutting machinability - Kv tv.spl = 2.1 and Kv b.st. = 1.6 in the hot-rolled state at НВ 99-107 and σв = 450 MPa. Flock sensitivity - not sensitive. Tendency to temper brittleness - not prone.

    Hardenability

    Hardness HRCе at a distance from the end, mm
    1,534,56
    31292620,5

    Hardness HB (Brinell) for metal products made of steel 10 (GOST 1050-2013)

    steel gradeHardness HB, no more, for metal products
    hot rolled and forgedcalibrated and with special surface finishing
    without heat treatmentafter annealing or high temperinghard-workedafter annealing or high tempering
    10143187143

    The use of steel 10 for pipelines depending on the parameters of the transported medium (GOST 32569-2013)

    Steel grade, strength class, standard or specificationsTechnical requirements for pipes (standard or specifications)Nominal diameter, mmTypes of tests and requirements (standard or specifications)Transported medium (see GOST 32569-2013 designations in table 5.1)Pipeline design parameters
    Maximum pressure, MPaMaximum temperature, °CPipe wall thickness, mmMinimum temperature depending on the thickness of the pipe wall when the wall is stressed from internal pressure [σ], °C
    more than 0.35[σ]no more than 0.35[σ]
    Seamless pipes
    Steel 10 GOST 1050GOST 550 groups A, B10-300GOST 550All environments≤32475≤12 >12minus 40 minus 30minus 40
    GOST 8731, GOST R 53383 group B, except for those made from ingot50-400GOST 8731, GOST R 53383 with hydrotest guarantee≤5≤12 >12minus 40 minus 30
    Group B media, except steam and hot water≤5≤12 >12minus 40 minus 30
    GOST 8733, GOST R 54157 group B10-150GOST 8733, GOST R 54157All media with hydrotest guarantee32≤6minus30
    TU 14-3-826-7920-50TU 14-3-826-79All environments≤12minus 30
    TU 14-3-1486-87300, 350, 400TU 14-3-1486-87minus 40
    TU 14-3-587-77500TU 14-3-587-77≤12 >12minus 40 minus 30
    TU 14-ZR-55-200150-400TU 14-ZR-55-2001minus 30
    TU 14-3-1577-88TU 14-3-1577-88minus 40
    TU 14-3-1128-2000 TU 14-ZR-1128-2007TU 14-3-1128-2000 TU 14-ZR-1128-2007≤12 >12minus 40 minus 30minus 60 minus 40
    Spiral welded electric welded pipes
    Steel 10 GOST 1050GOST 32626-150GOST 3262Group B media, except steam and hot water≤1,6200≤5minus 20minus 20

    Limits of application, types of mandatory testing and control of gaskets made of steel 10 for pressures above 10 MPa (100 kgf/cm2) (GOST 32569-2013)

    Steel grade, standard or specification10 GOST 1050
    Technical requirementsOST 26-01-49-82
    the name of detailMetal gaskets
    Limit parametersWall temperature, °C, no more-40 to +250
    Nominal pressure, MPa (kgf/cm2) no more32 (320)
    Mandatory testsσ0.2+
    σв+
    σ+
    f
    KCU+
    HB+
    ControlFlaw detection+
    Non-metallic inclusions

    Use of steel 10 for the manufacture of fasteners (GOST 32569-2013)

    steel gradeTechnical requirementsAcceptable operating parametersPurpose
    Wall temperature, °CMedium pressure, MPa (kgf/cm2), no more
    Steel 10 GOST 1050STP 26.260.2043From 0 to +3002,5 (25)Nuts
    -40 to +45010 (100)Washers

    Minimum value of yield strength, MPa (kgf/mm2) at design temperature (PNAE G-7-002-86)

    steel gradeAssortmentTemperature, K (°C)
    293 (20)323 (50)373 (100)423 (150)473 (200)523 (250)573 (300)623 (350)
    10Cold and heat-deformed seamless pipes with an outer diameter from 5 to 250 mm, with a wall thickness from 0.3 to 20 mm; outer diameter from 6 to 250 mm, with wall thickness from 1.6 to 24 mm; outer diameter from 6 to 160 mm, with wall thickness from 2 to 22 mm 206 (21)196 (20)195 (19)181 (18,5)176 (18)157 (16)137 (14)118 (12)
    Sectional hot-rolled and forged steel with a thickness or diameter of up to 80 mm186 (19)186 (19)186 (19)177 (18)177 (18)157 (16)137 (14)118 (12)

    NOTE. The "from" and "to" limits include both significant figures.

    Minimum value of ultimate strength (tensile strength), MPa (kgf/mm2) at design temperature (PNAE G-7-002-86)

    steel gradeAssortmentTemperature, K (°C)
    293 (20)323 (50)373 (100)423 (150)473 (200)523 (250)573 (300)623 (350)
    10Cold and heat-deformed seamless pipes with an outer diameter from 5 to 250 mm, with a wall thickness from 0.3 to 20 mm; outer diameter from 6 to 250 mm, with wall thickness from 1.6 to 24 mm; outer diameter from 6 to 160 mm, with wall thickness from 2 to 22 mm 343 (35)333 (34)333 (34)333 (34)333 (34)323 (33)314 (32)294 (30)
    Sectional hot-rolled and forged steel with a thickness or diameter of up to 80 mm333 (34)333 (34)333 (34)333 (34)333 (34)323 (33)314 (32)294 (30)

    NOTE. The "from" and "to" limits include both significant figures.

    Density ρп kg/cm3 at test temperature, °С

    Steel 1020100200300400500600700800900
    7856783278007765773076927653761375827594

    Linear expansion coefficient α*106, K-1

    steel gradeα*106, K-1 at test temperature, °C
    20-10020-20020-30020-40020-50020-60020-70020-80020-90020-1000
    1012,413,213,914,514,915,115,312,114,812,6

    Modulus of normal elasticity (Young's modulus) E, GPa

    Steel gradeAt test temperature, °C
    20100200300400500600700800900
    10206199195186178169157

    Thermal conductivity coefficient λ W/(m*K)

    Steel gradeλ W/(m*K), at test temperature, °C
    20100200300400500600700800900
    10585449454036322927

    Specific heat capacity c, J/(kg*K)

    steel grades, J/(kg*K), at test temperature, °C
    20-10020-20020-30020-40020-50020-60020-70020-80020-90020-1000
    10466479512567

    Modulus of elasticity in torsional shear G, GPa

    steel gradeAt test temperature, °C
    20100200300400500600700800900
    1078777673696659

    Electrical resistivity ρ nom*m

    steel gradeρ nom*m, at test temperature, °C
    20100200300400500600700800900
    1019026335245858473490510811130

    Find out more

    Structural alloy steel 30HN2MFA…

    Structural alloy steel 36Kh2N2MFA…

    Steel 40 structural carbon quality…

    Steel 10Х17Н13М3Т (EI432) corrosion-resistant aust…

    Decoding the brand

    The alloy belongs, according to GOST 1050-88, to structural high-quality carbon steels, which are subject to more stringent requirements for composition and production conditions.

    The marking indicates the average content of the main component (carbon) in hundredths of a percent - 0.20%. As its concentration increases, the surface hardness of the material increases, but at the same time its ductility decreases. The range of permissible carbon concentrations in metal is established by standards within 0.17-0.24%.

    Manganese and silicon are used as deoxidizing agents. They help remove oxygen and other gases from the metal, which increase the porosity of its structure. The silicon content is in the range of 0.17-0.35%, manganese - 0.35-0.60%.

    The alloy also contains other elements in small quantities that have a positive effect on its properties. However, their concentrations are too low:

    • nickel – up to 0.3%;
    • chromium – 0.2%;
    • copper – 0.3%.

    The presence in the metal of minimal amounts of harmful impurities is inevitable, deteriorating its mechanical properties:

    • sulfur – up to 0.04%;
    • phosphorus – 0.035%.

    Chemical composition of steel

    As previously noted, the chemical composition of 40X steel is determined by markings. However, it does not reflect the entire composition. Steel grade 40X is characterized by the following features:

    1. The carbon concentration in the composition ranges from 0.36% to 0.44%. Note that manufacturers cannot provide a more accurate indicator due to the complexity of the metal production process.
    2. Chromium is the main alloying element; the metal contains 0.8-1.1%.
    3. The alloy production process determines that nickel, silicon and manganese are included in the metal. Their concentration is no more than 1%, but even a small amount leads to a change in performance characteristics.
    4. The composition contains harmful elements, for example, phosphorus and sulfur. Their concentration is strictly regulated.
    5. Copper is also included in the composition, but it is about 0.035%. That is why the concentration of this element does not change the basic performance characteristics.

    Chemical composition of steel 40x according to GOST

    Refining of the structure with various alloying elements is carried out using strong deoxidizers, after which slag is introduced, treated with silicon and carbon.

    Characteristics of steel 20

    High-quality steel 20 must meet standards, have certain parameters and scope of use. Let's consider due to what characteristics the alloy remains in demand and popular.

    Since steel grade 20 is a high-quality material, strict requirements are imposed on its chemical composition. Smelting is carried out according to the rules prescribed in GOST steel 20. The composition includes the following components:

    • Iron (Fe) – approximately 98%.
    • Carbon (C) – 0.2%. The number 20 in the name indicates the content of this element. Carbon is responsible for strength. The more it is, the harder and more durable the alloy becomes.
    • Silicon (Si) – 0.17-0.35%. Needed to remove hydrogen, oxygen, nitrogen from the composition. They increase porosity and the number of gas pockets, which significantly reduce the strength of the metal.
    • Manganese (Mn) – 0.35-0.65%. Also a serious deoxidizer, it also promotes the removal of sulfur. Improves surface quality, reduces the risk of cracks during hot working. Thanks to it, welding and forging proceed better.
    • Nickel (Ni) – up to 0.3%, chromium (Cr) – up to 0.2%, copper (Cu) – up to 0.3%. The elements lead to improved mechanical and corrosion-resistant properties. However, since their number is small, they do not have a serious effect on the steel.
    • Phosphorus (P) – up to 0.035%, sulfur (S) – up to 0.04. Harmful impurities. If their content is too high, the steel becomes too brittle. In addition, the viscosity index drops.

    Deoxidation level

    • Calm steel 20. Due to the introduction of silicon and manganese, oxygen is completely absent. Iron oxides are also in very small quantities. This ensures “quiet” solidification of the metal in the ladle. The homogeneity and density of ST20 at the outlet are excellent, only a gas shell is formed on top.
    • Boiling steel. It is formed by the deoxidation of manganese, which leads to an increase in the content of ferrous oxide. The compound forms carbon dioxide. As a result, gas bubbles form, looking like a boiling mass. Such a metal is very porous, chemical elements are distributed unevenly, which causes deterioration in mechanical characteristics, increases the risk of cracks, and impairs weldability. But there are also advantages - low price, absence of unsafe waste.
    • Semi-quiet ST20. Something in between the previous varieties of the alloy.

    Types of processing

    • forged,
    • calibrated,
    • hot rolled,
    • silver (it has a round base and is coated with a special composition).

    The density of steel is 20 - 7850 kilograms per cubic meter. The melting point is 1500 degrees Celsius. The mixture becomes completely liquid at a temperature of 1600 °C. The alloy gives off heat easily, but also accumulates it well. Thermal conductivity coefficient is 48 W/(m deg), specific heat capacity is 490 J/(kg °C). Steel conducts current very well.

    The material has low chemical resistance to most acidic compounds. If moisture gets on the surface, rust will remain on it. Because of it, the appearance and strength are greatly deteriorated.

    To protect the material from corrosion, galvanic coatings (chrome, zinc, and other similar compounds) should be applied.

    The steel is highly plastic, the strength is average, and the hardness is good. The elastic modulus is 200 MPa. The rupture occurs when the greatest elongation is reached at 23-26%, the relative narrowing is even greater - 55%.

    Strength indicators are increased by peening, possibly rolling with rollers. Normalization or hardening annealing is performed. In this case we mean the thermal method of exposure.

    It is characterized by increased viscosity; accordingly, the alloy is able to withstand impacts. Impact strength – 780 kJ/m².

    It lends itself perfectly to pressure treatment and withstands any type of cutting. Stamping is mainly carried out hot. Does not crack during steam treatment and under high pressure. Weldability group 1.

    • ST20 is included in the subgroup of cemented alloys. The hardness of the cemented layer is up to 62 HRC, while the core remains “soft”, in the range of 20-35 HRC.
    • Chemical exposure and heat treatment (hardening) strengthen the metal and increase its service life.
    • Weldability without restrictions, is not characterized by flake sensitivity, and is not prone to temper brittleness.

    Structural quality carbon steel 20

    Structural high-quality carbon steel is used for the production of hot-rolled sheets, circles, strips, seamless pipes, electric-welded pipes, hexagons, manifolds, pipelines, superheaters, other parts of high-pressure boilers, sheets for stamping, cemented products with a long service life at temperatures up to +3500C.

    Steel 20 is one of the most practical steel grades, widely used for the production of steel pipes and hot-rolled sheets.

    Metal grade Substitute

    2015
    25

    Composition of steel grade 20

    The chemical composition of steel 20 is regulated by GOST 1050-58. According to his requirements, the mass fraction of carbon in the ladle sample of the alloy should be from 0.17% to 0.24%. Therefore, steel 20 is classified as low-carbon.

    Standards for the content of other chemical elements in it according to GOST:

    • nickel and copper - no more than 0.3%
    • arsenic - not higher than 0.08%;
    • manganese – 0.35% – 0.65%;
    • chromium – not higher than 0.25%;
    • silicon – 0.17% – 0.37%;
    • sulfur and phosphorus - respectively, no more than 0.040% and 0.035%.

    Characteristics of material 20L

    Brand: 20L Substitute: 25L, 30L

    Classification: Casting steel, unalloyed

    Application: chabots, fittings, shaped castings of general mechanical engineering parts produced by the lost wax method, parts of welded cast structures and other parts operating at temperatures from -40 to 450 °C.

    Types of supply of material 20L

    B42 - Rails. Overlays. Linings. Crutches GOST 7370-98 Railway crosspieces of types P75, P65 and P50. Specifications
    B82 – Steel castingsGOST 977-88 Steel castings

    Chemical composition in % of material 20L GOST 977 - 88

    C Si Mn S P0.17 — 0.250.2 — 0.520.45 — 0.9 to 0.06 to 0.06

    Note: The proportion of phosphorus and sulfur impurities depends on the group of castings and the type of steel smelting

    The temperature of the critical points of the material is 20L.

    Ac1 = 735, Ac3(Acm) = 854, Ar3(Arcm) = 835, Ar1 = 680 Technological properties of material 20L.

    Weldability:no limits.
    Flock Sensitivity:not sensitive.
    Tendency to temper brittleness:not inclined.

    Foundry and technological properties of material 20L.

    Linear shrinkage:2.2 — 2.3 %

    Heat treatment modes for 20L material

    Normalization 880 - 900 ° C or Normalization 880 - 900 ° C, Vacation 630 - 650 ° C

    Mechanical properties at T=20oC of material 20L.

    AssortmentSizeEg.sTd5yKCUThermal change
    mmMPaMPa%%kJ/m2
    Castings, K20, GOST 977-88up to 1004122162235491Normalization 880 - 900oC, Vacation 630 - 650oC,

    Physical properties of material 20L.

    TE 10- 5a 10 6lrCR 10 9
    hailMPa1/GradW/(m deg)kg/m3J/(kg deg)Ohm m
    202.01547850170
    1001.9612.253487220
    2001.8812.751500294
    3001.8313.148517385
    4001.7313.543533490
    5001.6513.939559604
    6001.5214.435588761
    7001.3214.932638932
    8001.212.6277061101
    90012.4277061139
    TE 10- 5a 10 6lrCR 10 9

    Foreign analogues of material 20L

    Attention! Both exact and closest analogues are indicated.
    1.0443

    USAGermanyJapanFranceEnglandItalyPolandCzechAustria
    DIN,WNrJISAFNORB.S.UNIPNCSNONORM
    1A
    Gr.WCA
    J02002
    J02502
    1.0619
    GP240GH
    GS45
    SC450
    SCPH1
    FB-M
    430A
    GC20
    L20
    422643
    GS45

    Designations:

    Mechanical properties :
    — Short-term strength limit, [MPa]
    sT— Proportional limit (yield strength for permanent deformation), [MPa]
    d5— Elongation at break, [%]
    y— Relative narrowing, [%]
    KCU— Impact strength, [kJ/m2]
    HB— Brinell hardness, [MPa]
    Physical properties:
    T— Temperature at which these properties were obtained, [Deg]
    E— Modulus of elasticity of the first kind, [MPa]
    a— Coefficient of thermal (linear) expansion (range 20o - T), [1/degree]
    l— Thermal conductivity coefficient (heat capacity of the material), [W/(m deg)]
    r— Material density, [kg/m3]
    C— Specific heat capacity of the material (range 20o — T), [J/(kg deg)]
    R— Electrical resistivity, [Ohm m]
    Weldability:
    no limits— welding is performed without heating and without subsequent heat treatment
    limited weldability— welding is possible when heated to 100-120 degrees. and subsequent heat treatment
    difficult to weld— to obtain high-quality welded joints, additional operations are required: heating to 200-300 degrees. during welding, heat treatment after welding - annealing

    Physical and mechanical properties

    When considering the mechanical properties of 40X steel, it should be taken into account that it has high hardness and strength, the structure can withstand significant loads and is not subject to destruction during operation. Steel 40X is characterized by the following positive qualities:

    1. Quite high corrosion resistance, which is achieved by including chromium in the composition.
    2. High strength indicators. Hardness is measured in various indices, HRC and HB are often used. The hardness indicator corresponds to a value of 217 MPa.
    3. When choosing a more suitable material, attention is paid to specific gravity. The density of 40X steel is 7820 kg/m3.

    Properties of St 40x

    The elastic modulus and yield strength can vary over a fairly wide range, depending on temperature. For example, with a significant increase in temperature, the elastic modulus decreases. The yield strength determines how applicable the alloy is when producing workpieces by casting.

    The alloy also has several significant disadvantages:

    1. Tempering fragility. After hardening, the structure becomes very susceptible to impact loads. The likelihood of increased brittleness can be reduced by following heat treatment technology.
    2. High tendency to form flakes. It is characteristic of quite a large number of different alloys.
    3. Poor weldability complicates the manufacturing process of various products. If desired, a variety of welding technologies can be used. The process is greatly simplified by preheating the structure. In addition, the structure is difficult to cut when using welding equipment.
    4. Flock sensitivity is a property that determines the high probability of internal cracks appearing after casting various products. Such defects often occur during hot deformation of alloy steel. Such defects cause high concentrations of hydrogen during heat treatment. The likelihood of defects can be reduced by strictly observing the temperature regime.

    Welding steel

    Recently, the method of vacuumization of the alloy has been quite often used, due to which the hydrogen concentration is reduced. That is why the quality of the resulting structure increases significantly.

    Application of steel 20

    Steel 20 is used for the manufacture of:

    • pipes and pipe fittings, hooks and other parts operated under conditions of high pressure and temperatures from -40°C to 450°C;
    • thin spare parts used in conditions of increased abrasion;
    • stops, gears, fingers and other parts that are used under low load;
    • welded profiles;
    • (after chemical-thermal treatment) parts that require enhanced surface strength, but not the core (gears, worms, etc.).

    Application area

    According to the degree of weldability of the structure, it belongs to group 4. The weld seam can cause various cracks to form. That is why the 40X material is preheated before performing welding work, which avoids simply a huge number of problems with the operation of the resulting product.

    In addition, it is necessary to carry out preliminary preparation of the edges for arc welding. When using contact point technology, heat treatment is required.

    Other properties of the material in question determine its wide application. The following types of workpieces are supplied to production sites:

    1. Sheets. Sheet metal is widely used, for example, in cold or hot stamping. In addition, metal sheets are used for sheathing frame structures.
    2. Forgings are used as a basis for creating various products.
    3. Pipes are very common today, for example, when creating a heating system or for transporting various liquids.
    4. Rolled metal is used in the mechanical engineering field as a blank for various parts.

    Circle f 160 st 40X with turning

    After heat treatment, Steel 40 can be used to produce nozzles, reamers and tap bodies. An analogue of 40X steel can be used to produce various critical structures, for example, axles, shafts, gears, bolts or plungers. Foreign analogues can be used to manufacture parts that will be used outdoors at low temperatures. An example is the elements of bridges and railway structures.

    To significantly increase the performance characteristics of the resulting products, various heat treatments are carried out.

    Hardening leads to a significant increase in surface hardness, but brittleness can only be reduced by tempering. It is possible to achieve the required indicators only if the specific features of the technology are observed.

    Areas of application

    Certain technical characteristics of steel 20 explain its use in different areas of industry:

    1. Production of pipe fittings (sleeve nuts, fittings, flanges, crosses, nipples).
    2. Manufacturing of building materials.
    3. Assembly of various metal structures, machines, ships, industrial equipment.

    This metal is used to produce:

    1. Seamless pipes. Manufactured by cold or hot drawing. Their feature is high strength.
    2. All-welded cold-rolled pipes.
    3. Various profiles (wire, I-beams, channels, metal corners, sheets of different thicknesses, rods).

    Products from this alloy are manufactured according to certain state standards:

    1. GOST 17305-91—production of wire of different sections.
    2. GOST 82-70 - production of metal strips of different widths.
    3. GOST 16523-97 - production of light sheets of small thickness.
    4. GOST 10704-9 - pipe manufacturing.
    5. GOST 8479-70 - production of forged parts, forgings.
    6. GOST 1577-93 - production of metal sheets of large thickness.
    7. GOST 14955-77 - production of silver and grinding rods.
    8. GOST 7417-75 - production of calibrated rods.
    9. GOST 8240-97, GOST 1050-88 - production of shaped and long products.

    GOSTs indicate the basic requirements for finished products and their testing for admission to sale.

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