X10CrSi6
2014-12-19 14:21:22 Origin: Remark:0 Click:
Technical specifications of DIN X10CrSi6 stainless steel - Chemical composition,mechanical properties from steelmaking,forging,rolling,heat treatment,cold working.We also possess advanced precision machining equipments for further processing.
TECHNICAL DATA SHEET - Heat Resisting Steel - DIN X10CrSi6 / W-Nr 1.4712
MATERIAL CATEGORY: Heat resisting steel / corrosion resisting steels
FEATURES AND CLASSIFICATIONS
Heat-resistant steel means one type of steel possesses inoxidizability, enough high-temperature strength and excellent heat-resistant quality under high temperature. Heat resistant steel is divided into oxidation resistant steel and refractory steel according to its performance. Further into Austenitic heat-resistant steel, Martensitic heat-resistant steel, Ferritic heat-resistant steel and Pearlitic heat-resistant steel according to its normalizing.
Pearlitic steel - Alloying elements are mainly chromium and molybdenum.and gross content is no more than 5%, those steels possess excellent high temperature strength, processing property at temperature 500~600℃,low cost. they are widely used to produce the heat resisting parts at temperature below 600℃,such as boiler steel tubings, turbine impeller, rollor, fastener, high pressure vessel, pipeline. and representative steel grades are 16Mo, 15CrMo, 12Cr1MoV, 12Cr2MoWVTiB, 10Cr2Mo1, 25Cr2Mo1V, 20Cr3MoWV.
Martensitic steel - Chromium content is 7~13%, which holds superior high temperature strength, inoxidizability and moisture corrosive resistance,but weldability is not good. 4Cr9Si2, 4Cr10Si2Mo are used to make the vent valves of internal combustion engine, also belong to Martensitic steel
Ferrite steels - Contains more chromium, aluminum, silicon, forming monophase ferritic structure with superior inoxidizability, high temperature gaseous corrosion resistant capacity.but its high temperature strength is lower, brittleness of room temperature is larger, not well weldability. steel grades like 1Cr13SiAl,1Cr25Si2.
Austenitic steels - Contains more austenite formative elements like Chromium, manganese, nitrogien. At temperature above 600℃, which possess superior high temerature strength, structure stability, excellent weldability. and representative steel grades are 1Cr18Ni9Ti(321), 1Cr23Ni13(309), 0Cr25Ni20 (310S), 1Cr25Ni20Si2(314), 2Cr20Mn9Ni2Si2N, 4Cr14Ni14W2Mo.
Heat-resistant steel means one type of steel possesses inoxidizability, enough high-temperature strength and excellent heat-resistant quality under high temperature. Heat resistant steel is divided into oxidation resistant steel and refractory steel according to its performance. Further into Austenitic heat-resistant steel, Martensitic heat-resistant steel, Ferritic heat-resistant steel and Pearlitic heat-resistant steel according to its normalizing.
Pearlitic steel - Alloying elements are mainly chromium and molybdenum.and gross content is no more than 5%, those steels possess excellent high temperature strength, processing property at temperature 500~600℃,low cost. they are widely used to produce the heat resisting parts at temperature below 600℃,such as boiler steel tubings, turbine impeller, rollor, fastener, high pressure vessel, pipeline. and representative steel grades are 16Mo, 15CrMo, 12Cr1MoV, 12Cr2MoWVTiB, 10Cr2Mo1, 25Cr2Mo1V, 20Cr3MoWV.
Martensitic steel - Chromium content is 7~13%, which holds superior high temperature strength, inoxidizability and moisture corrosive resistance,but weldability is not good. 4Cr9Si2, 4Cr10Si2Mo are used to make the vent valves of internal combustion engine, also belong to Martensitic steel
Ferrite steels - Contains more chromium, aluminum, silicon, forming monophase ferritic structure with superior inoxidizability, high temperature gaseous corrosion resistant capacity.but its high temperature strength is lower, brittleness of room temperature is larger, not well weldability. steel grades like 1Cr13SiAl,1Cr25Si2.
Austenitic steels - Contains more austenite formative elements like Chromium, manganese, nitrogien. At temperature above 600℃, which possess superior high temerature strength, structure stability, excellent weldability. and representative steel grades are 1Cr18Ni9Ti(321), 1Cr23Ni13(309), 0Cr25Ni20 (310S), 1Cr25Ni20Si2(314), 2Cr20Mn9Ni2Si2N, 4Cr14Ni14W2Mo.
MATERIAL SPECIFICATIONS
DIN 17442,17744 (2002/1985), DIN EN 10302, 10095 (2002/1999)
DIN 17442,17744 (2002/1985), DIN EN 10302, 10095 (2002/1999)
CHEMICAL COMPOSITION (WEIGHT %)
C(%): ≤0.12
Si(%): 2.00~2.50
Mn(%): ≤1.00
P(%)≤: 0.045
S(%)≤: 0.030
Cr(%): 5.50~6.50
Ni(%): —
Si(%): 2.00~2.50
Mn(%): ≤1.00
P(%)≤: 0.045
S(%)≤: 0.030
Cr(%): 5.50~6.50
Ni(%): —
Other (%): -
MECHANICAL PROPERTIES (FINAL HEAT TREATMENT OR Q/T) UNDER ROOM TEMPERATURE
Hardness ≤HBS: 195
Thermal forming temp/℃: 1100~800
Heat treatment temp/℃|soft annealing: 930~950
Heat treatment temp/℃|quenching: —
Hardness ≤HBS: 195
Thermal forming temp/℃: 1100~800
Heat treatment temp/℃|soft annealing: 930~950
Heat treatment temp/℃|quenching: —
Condition: annealed
σb/MPa: 540~690
σb/MPa: 540~690
σs≥/MPa: 390
δ5≥(%): 18
δ5≥(%): 18
MECHANICAL PROPERTY UNDER HIGH TEMPERATURE
Condition: annealed
Condition: annealed
Creep limit (1000h)/MPa,at below temp/℃|600: 20
Creep limit (1000h)/MPa,at below temp/℃|700: 5
Creep limit (1000h)/MPa,at below temp/℃|800: 1
Creep limit (1000h)/MPa,at below temp/℃|900: —
Creep limit (1000h)/MPa,at below temp/℃|1000: —
Creep limit (1000h)/MPa,at below temp/℃|1100: —
Creep rupture strenght (1000h)/MPa,at below temp/℃|600: —
Creep rupture strenght (1000h)/MPa,at below temp/℃|700: —
Creep rupture strenght (1000h)/MPa,at below temp/℃|800: —
Creep rupture strenght (1000h)/MPa,at below temp/℃|900: —
Creep limit (1000h)/MPa,at below temp/℃|700: 5
Creep limit (1000h)/MPa,at below temp/℃|800: 1
Creep limit (1000h)/MPa,at below temp/℃|900: —
Creep limit (1000h)/MPa,at below temp/℃|1000: —
Creep limit (1000h)/MPa,at below temp/℃|1100: —
Creep rupture strenght (1000h)/MPa,at below temp/℃|600: —
Creep rupture strenght (1000h)/MPa,at below temp/℃|700: —
Creep rupture strenght (1000h)/MPa,at below temp/℃|800: —
Creep rupture strenght (1000h)/MPa,at below temp/℃|900: —
Heat resistance temperature in air /℃: —
APPLICATION FIELD
Heat-resistant steel is widely used in the field of manufacturing the boiler, steam turbine, motive power machine, industrial furnace, and other mechanical parts of aviation, petrochemical engineering operating at high temperature. Those parts must hold the features: high temperature strength, resistance to high temperature oxide etch, enough toughness, excellent machinability, weldability, structure stability based on different usages.
Heat-resistant steel is widely used in the field of manufacturing the boiler, steam turbine, motive power machine, industrial furnace, and other mechanical parts of aviation, petrochemical engineering operating at high temperature. Those parts must hold the features: high temperature strength, resistance to high temperature oxide etch, enough toughness, excellent machinability, weldability, structure stability based on different usages.
MANUFACTURING TECHNOLOGY - SMELTING
Heat resistant steel is generally smelt in electric arc furnace or induction furnace. For higher quality,it should be smelt via technology of vacuum refining and external refining.
Heat resistant steel is generally smelt in electric arc furnace or induction furnace. For higher quality,it should be smelt via technology of vacuum refining and external refining.
HEAT TREATMENT PRACTICE
Pearlitic refractory steels use normalizing or hardening and tempering.
Martensitic heat resistant steels adopt hardening and tempering to stabilize the structure for excellent composite mechanical properties and high temperature strength.
Ferritic steels don't strengthen via heat treatment, which can be annealed treatment at temperature 650~830℃ in order to remove the internal stress due to the plastic deformation and welding.then rapid cooling through the brittleness temperature ranges of 475℃ quickly.
Austenitic oxidation resistant steels generally adopt high temperature solution treatment in order to get a superior cold deformation quality. While austenitic refractory steels firsly adopt hight temperature solution treatment, then ageing treatment to stabilize the structure at operation temperature above 60 ~ 100℃, separate out the second phase to strengthen the matrix.Heat resisting cast steels use in the condition of cast, adopt the relevant heat treatments according to heat resistant steels' categories.
Pearlitic refractory steels use normalizing or hardening and tempering.
Martensitic heat resistant steels adopt hardening and tempering to stabilize the structure for excellent composite mechanical properties and high temperature strength.
Ferritic steels don't strengthen via heat treatment, which can be annealed treatment at temperature 650~830℃ in order to remove the internal stress due to the plastic deformation and welding.then rapid cooling through the brittleness temperature ranges of 475℃ quickly.
Austenitic oxidation resistant steels generally adopt high temperature solution treatment in order to get a superior cold deformation quality. While austenitic refractory steels firsly adopt hight temperature solution treatment, then ageing treatment to stabilize the structure at operation temperature above 60 ~ 100℃, separate out the second phase to strengthen the matrix.Heat resisting cast steels use in the condition of cast, adopt the relevant heat treatments according to heat resistant steels' categories.
TECHNICAL SALES ASSISTANCE
If you meet further on any technical enquiry. pleased to EMAIL our resident team of qualified production engineers.
Mr Chen, Mr.Jiang - Email: lh.steel@hotmail.com
If you meet further on any technical enquiry. pleased to EMAIL our resident team of qualified production engineers.
Mr Chen, Mr.Jiang - Email: lh.steel@hotmail.com
PRODUCT PROFILE
Round bar / Wire rod (Diameter): 0.50mm to 800mm
Square bar / Flat bar: 3mm to 800mm
Length: Fixed length or random length or based on the customer's special requirement.
Round bar / Wire rod (Diameter): 0.50mm to 800mm
Square bar / Flat bar: 3mm to 800mm
Length: Fixed length or random length or based on the customer's special requirement.
Heavy/middle plate via hot rolled: T6 - 200mm X W1000- 2500mm X L1000-12000mm
Sheet steel via cold rolled: T0.5 - 6mm X W600- 1000mm X L1000 - 2000mm
Steel strip via cold rolled: T0.1 - 3mm X W5 - 200mm X L (or in coil form)
Forging piece: stepped shafts with flanks / discs /tubes /slugs /donuts /cubes /other different shapes based on OEM.
Pipes / Tubings: OD 3-219 mm, with wall thickness ranging from 0.50 to 35 mm.
Sheet steel via cold rolled: T0.5 - 6mm X W600- 1000mm X L1000 - 2000mm
Steel strip via cold rolled: T0.1 - 3mm X W5 - 200mm X L (or in coil form)
Forging piece: stepped shafts with flanks / discs /tubes /slugs /donuts /cubes /other different shapes based on OEM.
Pipes / Tubings: OD 3-219 mm, with wall thickness ranging from 0.50 to 35 mm.
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