15CrMoG合金管規格|15CrMoG合(hé)金(jīn)管標準-顏慶提供
15CrMoG合金管
15CrMoG合金管
15CrMoG合金管規格:8-1240×1-200mm
15CrMoG合金管概(gài)況:
標準:
GB3087 —— 中國(guó)國家標(biāo)準(zhǔn)
GB5310 —— 中國國家標準
ASME SA210 —— 美國鍋爐及壓(yā)力容器規範
ASME SA213 —— 美國(guó)鍋爐及壓力容器規範
DIN17175 —— 聯(lián)邦德國工業標準
用途:
用於低中(zhōng)壓鍋爐(工作壓力(lì)一般不大於(yú)5.88Mpa,工作溫度在450℃以下(xià))的受熱麵管子;用於高壓鍋爐(工作(zuò)壓力一般在9.8Mpa以(yǐ)上,工作溫度在450℃~650℃之間)的受(shòu)熱麵管子、省煤器、過熱器、再熱(rè)器、石化工業用管等。
主要生產鋼管牌(pái)號:
10、20、20G、20MnG、25MnG、15CrMoG、12Cr2MoG、12Cr1MoVG、12Cr2MoWVTiB、10Cr9Mo1VNb、SA210A1、SA210C、SA213 T11、SA213 T12、SA213 T22、SA213 T23、SA213 T91、SA213 T92、ST45.8/Ⅲ、15Mo3、13CrMo44、10CrMo910等
力學性能:
|
標準 |
牌號 |
抗拉強度(MPa) |
屈服強度(MPa) |
伸長率(%) |
硬度 |
|
GB3087 |
10 |
335~475 |
≥195 |
≥24 |
/ |
|
20 |
410~550 |
≥245 |
≥20 |
/ |
|
|
GB5310 |
20G |
410~550 |
≥245 |
≥24 |
/ |
|
20MnG |
≥415 |
≥240 |
≥22 |
/ |
|
|
25MnG |
≥485 |
≥275 |
≥20 |
/ |
|
|
15CrMoG |
440~640 |
≥235 |
≥21 |
/ |
|
|
12Cr2MoG |
450~600 |
≥280 |
≥20 |
/ |
|
|
12Cr1MoVG |
470~640 |
≥255 |
≥21 |
/ |
|
|
12Cr2MoWVTiB |
540~735 |
≥345 |
≥18 |
/ |
|
|
10Cr9Mo1VNb |
≥585 |
≥415 |
≥20 |
/ |
|
|
ASME SA210 |
SA210A-1 |
≥415 |
≥255 |
≥30 |
≤143HB |
|
SA210C |
≥485 |
≥275 |
≥30 |
≤179HB |
|
|
ASME SA213 |
SA213 T11 |
≥415 |
≥205 |
≥30 |
≤163HB |
|
SA213 T12 |
≥415 |
≥220 |
≥30 |
≤163HB |
|
|
SA213 T22 |
≥415 |
≥205 |
≥30 |
≤163HB |
|
|
SA213 T23 |
≥510 |
≥400 |
≥20 |
≤220HB |
|
|
SA213 T91 |
≥585 |
≥415 |
≥20 |
≤250HB |
|
|
SA213 T92 |
≥620 |
≥440 |
≥20 |
≤250HB |
|
|
DIN17175 |
ST45.8/Ⅲ |
410~530 |
≥255 |
≥21 |
/ |
|
15Mo3 |
450~600 |
≥270 |
≥22 |
/ |
|
|
13CrMo44 |
440~590 |
≥290 |
≥22 |
/ |
|
|
10CrMo910 |
480~630 |
≥280 |
≥20 |
/ |
|
編(biān)輯本段化學成分(fèn):
|
標準 |
牌號 |
化(huà)學成分(%) |
|
C |
Si |
Mn |
P |
S |
Cr |
Mo |
Cu |
Ni |
V |
Al |
W |
Ti |
Nb |
N |
|
GB3087 |
10 |
0.07~0.13 |
0.17~0.37 |
0.38~0.65 |
≤0.030 |
≤0.030 |
0.3~0.65 |
/ |
≤0.25 |
≤0.30 |
/ |
/ |
|
|
|
|
|
20 |
0.17~0.23 |
0.17~0.37 |
0.38~0.65 |
≤0.030 |
≤0.030 |
0.3~0.65 |
/ |
≤0.25 |
≤0.30 |
/ |
/ |
|
|
|
|
|
|
GB5310 |
20G |
0.17~0.24 |
0.17~0.37 |
0.35~0.65 |
≤0.030 |
≤0.030 |
≤0.25 |
≤0.15 |
≤0.20 |
≤0.25 |
≤0.08 |
|
|
|
|
|
|
20MnG |
0.17~0.24 |
0.17~0.37 |
0.70~1.00 |
≤0.030 |
≤0.030 |
≤0.25 |
≤0.15 |
≤0.20 |
≤0.25 |
≤0.08 |
|
|
|
|
|
|
|
25MnG |
0.18~0.24 |
0.17~0.37 |
0.80~1.10 |
≤0.030 |
≤0.030 |
≤0.25 |
≤0.15 |
≤0.20 |
≤0.25 |
≤0.08 |
|
|
|
|
|
|
|
15CrMo |
0.12~0.18 |
0.17~0.37 |
0.40~0.70 |
≤0.030 |
≤0.030 |
0.80~1.10 |
0.40~0.55 |
≤0.20 |
≤0.30 |
|
|
|
|
|
|
|
|
12Cr2MoG |
0.08~0.15 |
≤0.50 |
0.40~0.70 |
≤0.030 |
≤0.030 |
2.00~2.50 |
0.90~1.20 |
≤0.20 |
≤0.30 |
|
|
|
|
|
|
|
|
12Cr1MoV |
0.08~0.15 |
0.17~0.37 |
0.40~0.70 |
≤0.030 |
≤0.030 |
0.90~1.20 |
0.25~0.35 |
≤0.20 |
≤0.30 |
0.15~0.30 |
|
|
|
|
|
|
|
12Cr2MoWVTiB |
0.08~0.15 |
0.45~0.75 |
0.45~0.65 |
≤0.030 |
≤0.030 |
1.60~2.10 |
0.50~0.65 |
≤0.20 |
≤0.30 |
0.28~0.42 |
|
0.30~0.55 |
0.08~0.15 |
B 0.002~0.008 |
|
|
|
10Cr9Mo1VNb |
0.08~0.12 |
0.20~0.50 |
0.30~0.60 |
≤0.020 |
≤0.010 |
8.00~9.50 |
0.85~1.05 |
≤0.20 |
≤0.40 |
0.18~0.25 |
≤0.015 |
|
|
0.06~0.10 |
0.03~0.07 |
|
|
ASME SA210 |
SA210A-1 |
0.13~0.19 |
≥0.1 |
0.45~0.65 |
≤0.030 |
≤0.030 |
|
|
|
|
|
|
|
|
|
|
|
SA210C |
0.18~0.24 |
≥0.1 |
0.80~1.10 |
≤0.030 |
≤0.030 |
|
|
|
|
|
|
|
|
|
|
|
|
ASME SA213 |
SA213 T11 |
0.05~0.15 |
0.50~1.0 |
0.30~0.60 |
≤0.030 |
≤0.030 |
1.00~1.50 |
0.50~1.00 |
|
|
|
|
|
|
|
|
|
SA213 T12 |
0.05~0.15 |
≤0.50 |
0.30~0.61 |
≤0.030 |
≤0.030 |
0.80~1.25 |
0.44~0.65 |
|
|
|
|
|
|
|
|
|
|
SA213 T22 |
0.05~0.15 |
≤0.50 |
0.30~0.60 |
≤0.030 |
≤0.010 |
1.90~2.60 |
0.87~1.13 |
|
|
|
|
|
|
|
|
|
|
SA213 T23 |
0.04~0.10 |
≤0.50 |
0.10~0.60 |
≤0.030 |
≤0.030 |
1.90~2.60 |
0.05~0.30 |
|
|
|
≤0.030 |
1.45~1.75 |
B 0.0005~0.006 |
0.02~0.08 |
≤0.040 |
|
|
SA213 T91 |
0.08~0.12 |
0.20~0.50 |
0.30~0.60 |
≤0.020 |
≤0.010 |
8.00~9.50 |
0.85~1.05 |
|
≤0.40 |
0.18~0.25 |
≤0.015 |
|
|
0.06~0.10 |
0.03~0.07 |
|
|
SA213 T92 |
0.07~0.13 |
≤0.50 |
0.30~0.60 |
≤0.020 |
≤0.010 |
8.50~9.50 |
0.30~0.60 |
|
≤0.40 |
0.15~0.25 |
≤0.015 |
1.50~2.00 |
B 0.001~0.006 |
0.04~0.09 |
0.03~0.07 |
|
|
DIN 17175 |
ST45.8/Ⅲ |
≤0.21 |
0.10~0.35 |
0.40~1.20 |
≤0.040 |
≤0.040 |
|
|
|
|
|
|
|
|
|
|
|
15Mo3 |
0.12~0.20 |
0.10~0.35 |
0.40~0.80 |
≤0.035 |
≤0.035 |
|
0.25~0.35 |
|
|
|
|
|
|
|
|
|
|
13CrMo44 |
0.10~0.18 |
0.10~0.35 |
0.40~0.70 |
≤0.035 |
≤0.035 |
0.70~1.10 |
0.45~0.65 |
|
|
|
|
|
|
|
|
|
|
10CrMo910 |
0.08~0.15 |
≤0.50 |
0.30~0.70 |
≤0.025 |
≤0.020 |
2.00~2.50 |
0.90~1.10 |
≤0.30 |
≤0.30 |
|
≤0.015 |
|
|
|
|
|
15crmoG合金管是
無(wú)縫鋼管[1]的一(yī)種,其性能要比一般的無縫鋼管高很多,因為這種鋼(gāng)管裏麵含Cr比較多,其耐高溫
[1]、腐(fǔ)蝕的性能是其他無縫鋼(gāng)管(guǎn)比不上的,所以合金(jīn)管在(zài)石(shí)油、化工、電力、鍋(guō)爐等行業的用途比較廣泛。
15crmoG合金管純化氫(qīng)的原理(lǐ)是,在300—500℃下,把待純化的氫通(tōng)入(rù)15crmo合金管(guǎn)的一側時,氫被吸附(fù)在15crmo合金管壁上,由於鈀的4d電子層缺少兩個電子,它能與氫(qīng)生成(chéng)不穩定的化學鍵(鈀與(yǔ)氫的這種反應是可(kě)逆(nì)的),在鈀的作用下,氫被電離為質子(zǐ)其(qí)半徑(jìng)為1.5×1015m,而鈀的(de)晶(jīng)格常數為(wéi)3.88×10-10m(20℃時),故(gù)可(kě)通過15crmo合金管(guǎn),在鈀的作用下質子又(yòu)與電子結合並重新形成氫分子,從(cóng)15crmo合金管的另(lìng)一側(cè)逸(yì)出。在15crmog合金管表麵,未被離解的氣體是不能(néng)透過(guò)的,故可利用15crmo合金管獲得高純氫。[2]雖然鈀對(duì)氫有獨特的透過性能,但純鈀的機械性能差,高溫時易(yì)氧化,再結晶溫度低,易使(shǐ)15crmo合金管變(biàn)形和脆化,故不能用純鈀作透過膜。在(zài)鈀中(zhōng)添加適量(liàng)的IB族和Ⅷ族元素,製成鈀合金,可(kě)改(gǎi)善鈀的(de)機械性能11.汽車半軸套管用無縫鋼管(GB3088-82)是(shì)製(zhì)造汽車半軸套管及驅動橋(qiáo)橋殼軸管用的優質碳素結構鋼和合金結構鋼(gāng)熱軋無縫(féng)鋼管鈀合金中,銀約占20—30%,其他(tā)成分(fèn)(如金(jīn)等(děng))的含(hán)量<5%
合金管(guǎn)理論的計(jì)算:(外徑-壁厚)*壁厚*0.02466=每米的重量
15crmoG合(hé)金管尺寸及允許(xǔ)偏差
鋼管種類外徑(D) 鋼管壁厚(hòu)(S)
冷拔管鋼管外徑(mm) 允許偏差(mm) 鋼管壁厚(mm) 允許(xǔ)偏差(mm)
>30~50 ±0.3 ≤30 ±10%
>50~219 ±0.8%
熱軋(zhá)管>219 ±1.0% >20 ±10%
