X8CrNiNb16-13 1.4961 - NF EN 10028-7-2000

牌号	X8CrNiNb16-13
	1.4961
對應标準	NF EN 10028-7-2000 壓力容器用不鏽鋼扁平產品 Flat products made of steels for pressure purposes Part 7: Stainless steels
歸類	奧氏體不鏽鋼
标簽	特殊等級
密度	7.95 g/cm³

X8CrNiNb16-13 化學元素成分含量(%)

成分	C	Si	Mn	P	S	Cr	Ni	更多
最小值	0.04	0.3	-	-	-	15	12	Nb:10×C~1.2
最大值	0.1	0.6	1.5	0.035	0.015	17	14	Nb:10×C~1.2

◎ 未經買方同意，不得随意向鋼中添加表中未列的元素，冶煉精加工除外。采取一切必要措施以防在廢鋼和生產原料中帶入這些元素，因為其會削弱鋼的機械性能，降低鋼的适用性。

碳當量計算

X8CrNiNb16-13 機械性能

條件	熱處理或狀态	抗拉強度 σ_b Mpa	屈服點 σ_s Mpa	斷後伸長率或延伸率 δ %	沖擊吸收能量 KV2 J
P：T ≤ 75	+AT	510~690	R_p0.2：≥200 R_p1.0：≥240 ①②	T ＜ 3mm: ≥35 T ≥ 3mm: ≥ 35 ②③	20℃： (l: ≥100；t: ≥60)

◎C- 冷軋帶鋼; H- 熱軋帶鋼; P- 熱軋中厚闆；T- 厚度；t- 橫向；l-縱向。
◎+A=軟化退火；+AT=固溶退火；+QT=淬火及回火；+RA=再結晶退火。

◎ 奧氏體鋼有足夠的韌性，不需要進行沖擊試驗。相比之下，奧氏體-鐵素體鋼必須按要求做沖擊試驗，以确保足夠的韌性。
*抗晶間腐蝕根據EN ISO 3651-2進行測試。在交貨條件下：有；在緻敏狀态下：有。
① 對于連續熱軋產品，可在詢價和訂購時商定Rp0.2(即表中σs)的最小值提高20MPa，Rp1.0的最小值提高10MPa。
② 如果在軋制寬度<300mm的帶材情況下，采用縱向試驗件，最小值減小如下:抗拉強度-15MPa，恒定标距的延伸率-5%，比例标距延伸率-2%。
③ T＜3mm：該值适用于标距為80mm、寬度為20mm的試件，也可以使用标距為50mm、寬度為12.5mm的試件。T ≥3mm：該值适用于标距為5.65√S的試件。

高溫下的最小屈服強度

Material designation		Heat treatment condition	Minimum 0.2% proof strength R_p0.2,MPa at a temperature (in°C) of:
Name	Number	Heat treatment condition	100	150	200	250	300	350	400	450	500	550	600
X8CrNiNb16-13	1.4961	+AT	175	166	157	147	137	132	128	123	118	118	113
			Minimum 1.0% proof strength R_p1.0,MPa at a temperature (in°C) of:
			100	150	200	250	300	350	400	450	500	550	600
			205	195	186	176	167	162	157	152	147	147	142

高溫下的最小抗拉強度

Material designation Minimum tensile strength R_m,MPa
at a temperature (in°C) of:
Name Number 100 150 200 250 300 350 400 450 500 550 600
X8CrNiNb16-13 1.4961 465 440 420 400 385 375 370 360 350 340 320

熱處理指南

Material designation		Hot forming		Heat treatment symbol	Solution anneailing ①②		Post weld heat treatment Creep resisting steels
Name	Number	Temperature ℃	Type of cooling	Heat treatment symbol	Temperature ℃ ③④	Type of cooling	Temperature ℃ ⑥	Type of cooling
X8CrNiNb16-13	1.4961	1150 to 850	air	+AT	1050 to 1110	water,air ⑤	900 to 950 ⑦	air

◎ a=air; o=oil; w=water.
◎ Scale and annealing colours produced during hot forming, heat treatment or welding may adversely affect the corrosion resistance. They should be removed as far as possible before use, e.g. by pickling.
◎ The temperatures of annealing should be agreed for simulated heat treated test pieces.
① The solution treatment may be omitted if the conditions for hot working and subsequent cooling are such that the requirements for the mechanical properties of the product and the resistance to intergranular corrosion as defined in EN ISO 3651-2 are obtained and provided these requirements are met even after appropriate subsequent solution annealing.
② Re-crystallizing annealing.
③ If heat treatment is carried out in a continuous furnace, the upper part of the range specified is usually preferred, or even exceeded.
④ The lower end of the range specified for solution annealing should be aimed at for heat treatment as part of further processing,because otherwise the mechanical properties might be affected. If the temperature of hot forming does not drop below the lower temperature for solution annealing.a temperature of 980℃ is adequate as a lower limit for Mo-free steels,a temperature of 1000℃ for steels with Mo contents up to 3% and a temperature of 1020℃ for steets with Mo contents exceeding 3%.

⑤ cooling sufficiently rapid.

⑥ Minimum holding time:30min.Minimum holding time:30min.

⑦ Minimum holding time:30min.

物理性能

Modulus of elasticity at											Mean coefficient of thermal expansion between 20 ℃ and										Thermal conductivity at 20℃	Specific thermal capacity at 20℃	Specific electrical resistivity at 20℃
20°C	100°C	200°C	300°C	400°C	500°C	600°C	700°C	800°C	900°C	1000°C	100°C	200°C	300°C	400°C	500°C	600°C	700°C	800°C	900°C	1000°C	Thermal conductivity at 20℃	Specific thermal capacity at 20℃	Specific electrical resistivity at 20℃
KN/mm²											10^-6 K^-1										W/m.K	J/kg.K	Ω.mm²/m
200	190	185	175	170	160	155	145	140	135	125	16.3	16.9	17.3	17.8	18.2	18.5	18.7	-	-	-	16	450	0.78

蠕變性能

Designation		Heat treatment condition	Temperature	Strength for rupture							Strength for 1% (plastic) creep strain
Designation			Temperature	in MPa for ①
Name	Number		°C	10000h	30000h	50000h	100000h	150000h	200000h	250000h	10000h	100000h
X8CrNiNb16-13	1.4961	+AT	580	182	-	-	129	-	115	-	127	91
			590	170	-	-	119	-	105	-	120	84
			600	157	-	-	108	-	94	-	113	78
			610	145	-	-	98	-	85	-	106	73
			620	134	-	-	89	-	77	-	99	67
			630	124	-	-	80	-	69	-	92	61
			640	113	-	-	72	-	61	-	85	55
			650	103	-	-	64	-	53	-	78	49
			660	93	-	-	57	-	47	-	72	44
			670	84	-	-	50	-	41	-	66	39
			680	76	-	-	44	-	36	-	59	34
			690	70	-	-	39	-	31	-	54	30
			700	64	-	-	34	-	27	-	49	26
			710	59	-	-	30	-	25	-	45	24
			720	55	-	-	27	-	22	-	42	21
			730	51	-	-	25	-	19	-	39	19
			740	47	-	-	22	-	17	-	36	17
			750	44	-	-	20	-	15	-	34	16

◎ Values were taken from DIN 17460 [3].
① Values in parantheses involved time and/or stress extrapolation; values with asterisk involved time extrapolation.

X8CrNiNb16-13 對應不同标準

1	EN 10088-1-2005 不鏽鋼第1部分:不鏽鋼的清單
	X8CrNiNb 16-13 1.4961
2	EN 10302-2008 鎳和鎳钴合金的耐蠕變鋼
	X8CrNiNb 16-13 1.4961
3	ISO 15510-2014 技術規範不鏽鋼-化學成分
	X8CrNiNb16-13 4961-347-77-E
4	ISO 9328-7-2018 不鏽鋼承壓扁鋼制品
	X8CrNiNb16-13
5	ISO 4955-2016 耐熱鋼
	X8CrNiNb16-13 4961-347-77-E
6	NF EN 10088-1-2005 不鏽鋼 - 第1部分：不鏽鋼清單
	X8CrNiNb16-13 1.4961
7	NF EN 10028-7-2008 壓力容器用不鏽鋼扁平產品
	X8CrNiNb16-13 1.4961
8	NF EN 10028-7-2000 壓力容器用不鏽鋼扁平產品
	X8CrNiNb16-13 1.4961

注：數據僅供參考！如有疑問，請填寫"我要糾錯"！

Material designation		Minimum tensile strength R_m,MPa at a temperature (in°C) of:
Name	Number	100	150	200	250	300	350	400	450	500	550	600
X8CrNiNb16-13	1.4961	465	440	420	400	385	375	370	360	350	340	320

高溫下的最小屈服強度

高溫下的最小抗拉強度

熱處理指南

物理性能

蠕變性能