1.0114 (S235J0)

Классификация

Страна	Раздел	Категория
Германия	Нелегированные стали	Качественная сталь (конструкционные стали общего назначения с Rm <500 МПа)

Химический состав

Стандарт	Fe, %	Mn, %	Cu, %	P, %	C, %	S, %	N, %	CEV, %
EN 10025	> 97.418	< 1.4	< 0.55	< 0.035	< 0.17	< 0.035	< 0.012	< 0.38

Информация о поставщиках

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Механические свойства при температуре 20 °C

Размер, мм	$$\sigma _{B}$$, $$\textit{МПа}$$	$$\sigma_{T}$$, $$\textit{МПа}$$	$$\sigma_{0.2}$$, $$\textit{МПа}$$	$$\epsilon_{P (L_0 = 5.65\sqrt{S_o})}$$, %	$$KV_{L}$$, $$\textit{Дж}$$
< 3	360–510				27
3–100	360–510
100–150	350–500	195		22
150–250	340–490			21
< 16		235
16–40		225
40–63		215		25
63–80		215
80–100		215
150–200		185
200–250		175
< 1			17
1–1.5			18
1.5–2			19
2–2.5			20
2.5–3			21
3–40				26
63–100				24

Properties

Property
According to EN 10025-2 Thickness: < 16 mm ; yield strength: > 235 MPa
According to EN 10025-2 Thickness: < 16 mm ; yield strength: 350 - 510 MPa
According to EN 10025-2 Thickness: 16 - 40 mm ; yield strength: > 225 MPa
According to EN 10025-2 Thickness: 16 - 40 mm ; tensile strength: 350 - 510 MPa
According to EN 10025-2 Thickness: 40 - 100 mm ; yield strength: > 215 MPa
According to EN 10025-2 Thickness: 40 - 100 mm ; tensile strength: 350 - 510 MPa
According to EN 10025-2 Thickness: 100 - 150 mm ; yield strength: > 195 MPa
According to EN 10025-2 Thickness: 100 - 150 mm ; tensile strength: 350 - 500 MPa
According to EN 10025-2 Thickness: 150 - 200 mm ; yield strength: > 185 MPa
According to EN 10025-2 Thickness: 150 - 200 mm ; yield strength: 240 - 490 MPa
According to EN 10025-2 Thickness: 200 - 250 mm ; yield strength: > 175 MPa
According to EN 10025-2 Thickness: 200 - 250 mm ; tensile strength: 340 - 490 MPa
According to EN 10025-2 Longitudinal samples Thickness: < 1 mm ; elongation: > 17 %
According to EN 10025-2 Longitudinal samples Thickness: 1.0 - 1.5 mm ; elongation: > 18 %
According to EN 10025-2 Longitudinal samples Thickness: 1.5 - 2.0 mm ; elongation: > 19 %
According to EN 10025-2 Longitudinal samples Thickness: 2.0 - 2.5 mm ; elongation: > 20 %
According to EN 10025-2 Longitudinal samples Thickness: 2.5 - 3.0 mm ; elongation: > 21 %
According to EN 10025-2 Longitudinal samples Thickness: 3 - 40 mm ; elongation: > 26 %
According to EN 10025-2 Longitudinal samples Thickness: 40 - 63 mm ; elongation: > 25 %
According to EN 10025-2 Longitudinal samples Thickness: 63 - 100 mm ; elongation: > 24 %
According to EN 10025-2 Longitudinal samples Thickness: 100 - 150 mm ; elongation: > 22 %
According to EN 10025-2 Longitudinal samples Thickness: 150 - 250 mm ; elongation: > 21 %
According to EN 10025-2 Transverse specimens Thickness: < 1 mm ; elongation: > 15 %
According to EN 10025-2 Transverse specimens Thickness: 1.0 - 1.5 mm ; elongation: > 16 %
According to EN 10025-2 Transverse specimens Thickness: 1.5 - 2.0 mm ; elongation: > 17 %
According to EN 10025-2 Transverse specimens Thickness: 2.0 - 2.5 mm ; elongation: > 18 %
According to EN 10025-2 Transverse specimens Thickness: 2.5 - 3.0 mm ; elongation: > 19 %
According to EN 10025-2 Transverse specimens Thickness: 3 - 40 mm ; elongation: > 24 %
According to EN 10025-2 Transverse specimens Thickness: 40 - 63 mm ; elongation: > 23 %
According to EN 10025-2 Transverse specimens Thickness: 63 - 150 mm ; elongation: > 22 %
According to EN 10025-2 Transverse specimens Thickness: 150 - 250 mm ; elongation: > 21 %
According to EN 10025-2 Test for impact strength Thickness: < 150 mm ; Work strike KV at 0°C [32°F]: > 27 j
According to EN 10025-2 Test for impact strength Thickness: 150 - 250 mm ; Work strike KV at 0°C [32°F]: > 27 j
Density: 7.85 g/cm3
Weldability In ISO/TR 20172 Group: 1.1

Аналоги

Германия	Украина	США
S235J0	Ст3сп-е	260W

Стандарты

Стандарт	Описание
EN 10025
DIN EN 10025-2:2004
DIN EN 10025-2:2019
DIN EN 10025:1990

Описание химических элементов

Элемент	Единицы измерений	Описание
Fe	%	Железо
Mn	%	Марганец
Cu	%	Медь
P	%	Фосфор
C	%	Углерод
S	%	Сера
N	%	Азот
CEV	%	Церий

Описание механических свойств

Параметр	Единицы измерений	Описание
$$\sigma_{T}$$	$$\textit{МПа}$$	Предел текучести
$$\sigma_{0.2}$$	$$\textit{МПа}$$	Предел текучести условный (0.2%)
$$\sigma _{B}$$	$$\textit{МПа}$$	Предел кратковременной прочности
$$\epsilon_{P (L_0 = 5.65\sqrt{S_o})}$$	%	Относительное удлинение при растяжении (паралл.) (для L₀ = 5.65√So)
$$KV_{L}$$	$$\textit{Дж}$$	Работа разрушения при ударе (продольн.)