EN 10088-1 X3CrNiCu19-9-2

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EN 10088-1 X3CrNiCu19-9-2

EN 10088-1 X3CrNiCu19-9-2: IntroductionThe European Norm 10088-1 is the first in a series of standards for stainless steel used for general purposes in the construction industry.

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EN 10088-1 X3CrNiCu19-9-2 Introduce

The mechanical properties of EN 10088-1 X3CrNiCu19-9-2 steel include tensile strength, yield strength, creep strength, fatigue strength, modulus of elasticity, hardness and impact strength. These are all important factors to consider when designing and building structures that require steel components, as these mechanical properties define how a particular steel will perform in different situations.

Smelting temperature:1154°C - 1129°C

Application:Stainless steels. List of stainless steels

EN 10088-1 X3CrNiCu19-9-2 Material Chemical Composition

The chemical composition of the EN 10088-1 X3CrNiCu19-9-2 steel are as follows:

ElementMinMax
Carbon (C)-0.0350
Manganese (Mn)1.50002.0000
PhOsphorus (P)-0.0450
Sulfur (S)-0.0150
Silicon (Si)-1.0000
Nickel (Ni)8.00009.0000
Chromium (Cr)18.000019.0000
Copper (Cu)1.50002.0000
Nitrogen (N)-0.1000
Nitrogen (N)-0.1100
Copper (Cu)1.50002.0000

EN 10088-1 X3CrNiCu19-9-2 Material Mechanical Properties

EN 10088-1 X3CrNiCu19-9-2 steels are also highly heat resistant. This property is the result of the combination of elements in the alloy, as well as the specific heat treatments used in the fabrication of the steel. This property makes EN 10088-1 X3CrNiCu19-9-2 steels a great choice for applications where the steel must be subjected to high temperatures, such as components of a vehicle's exhaust system.

The mechanical properties of the EN 10088-1 X3CrNiCu19-9-2 steel are as follows:

YieldRp0.2 ≤ 295 (MPa)
TeileRm≤ 698 (MPa)
ImpactKV/Ku31(J)
ElongationA13%
Reduction in cross section on fractureZ23%
As-Heat-Treated ConditionSolution and Aging, Annealing, Ausaging, Q+T,etc
Brinell hardness (HBW)431

EN 10088-1 X3CrNiCu19-9-2 Material Thermal Properties

The thermal performance parameters of the EN 10088-1 X3CrNiCu19-9-2 steel are as follows:

Temperature (°C)32161792
Modulus of elasticity (GPa)-986-
Mean coefficient of thermal expaion ×10-6/(°C)--14
Thermal conductivity (W/m·°C)-34.334.2
Specific thermal capacity (J/kg·°C)-341-
Specific electrical resistivity (Ω mm²/m)0.41--
Deity (kg/dm³)--331
Poisson’s coefficient, ν--134

EN 10088-1 X3CrNiCu19-9-2 Material Machining Technology

Machining EN 10088-1 X3CrNiCu19-9-2 steel can be a difficult and challenging process due to its high strength and heat resistance. Operators must carefully and properly select the feed rate, cutting speed, and cutting tools for their specific project in order to achieve the desired result. Additionally, the operator must be mindful of the potential for tool wear and thermal shock, and take the necessary steps to prevent them. With the proper knowledge and preparation, successful machining of EN 10088-1 X3CrNiCu19-9-2 steel can be achieved.