Monel 400比纯镍更耐还原介质的腐蚀,比纯铜更耐氧化介质的腐蚀。二、化学成分:Monel 400的化学成分含量如下:Chemical composition of Monel 400:C(碳): ≤0.3% Si(硅): ≤0.5% Mn(锰): ≤2% P(磷): - S(硫): ≤0.024% Cr(铬): - Ni(镍): ≥63% Mo(钼): - Cu(铜): 2...
Monel400执行标准:ASTM B127/ASME SB-127 ASTM B163/ASME SB-163 ASTM B165/ASME SB-165 Monel 400 (UNS N04400/W.Nr.2.4360)Monel 400化学成分ChemicalCompositionWt.% 合金 % 镍Ni 铜Cu 铁Fe 碳C 锰Mn 硅Si 硫P Monel400 最小MIN 63 28 - - - ...
6.核工业用于制造铀提炼和同位素分离的设备7.制造生产盐酸设备使用的泵和阀 Monel400执行标准: ASTM B127/ASME SB-127 ASTM B163/ASME SB-163 ASTM B165/ASME SB-165 Monel 400 (UNS N04400/W.Nr.2.4360) Monel 400化学成分ChemicalCompositionWt.% 合金% 镍Ni 铜Cu 铁Fe 碳C 锰Mn 硅Si 硫P Monel40...
Monel 400在海工和化工行业应用广泛。常见用途包括阀门、泵壳、螺旋桨轴、紧固件、电气和电子元件、弹簧、化学加工设备、容器、蒸馏器、和管道等。 Monel R405 R405合金是在400合金基础上开发的。考虑到400合金的机加工性能欠佳,R405合金中的S含量略有增加 (<=0.06%)。R405合金以其优异的耐腐蚀性和中高强度而...
Chemical Composition Grade Ni% Cu% Fe% Mn% C% Si% S% Monel 400 Min 63 28-34 Max 2.5 Max 2.0 Max 0.30 Max 0.50 Max 0.024 Monel 400 Plate standards and approvals * ASTM A 480 * ISO 15510 * EN ISO 18286 * EN 10088-1 * EN 10051 ...
MONEL alloy 400,UNS N04400, NiCu30Fe Nr: 2.4360,Nicorros-alloy400,ATI400,,NAS NW4003.MONEL400\UNS N04400 Executive standard: ASTM B127/ASME SB-127, ASTM B163/ASME SB-163, ASTM B165/ASME SB-1654.MONEL400 Main chemical composition:Carbon (C)≤0.30,Nickel (Ni) ≥ 63.0,Silicon ...
Monel 400的化学成分含量如下: Chemical composition of Monel 400: C(碳): ≤0.3% Si(硅): ≤0.5% Mn(锰): ≤2% P(磷): - S(硫): ≤0.024% Cr(铬): - Ni(镍): ≥63% Mo(钼): - Cu(铜): 28.0-34.0% N(氮): - Al(铝): ≤2.5% ...
Chemical composition of Monel 400: alloy % nickel copper iron carbon manganese silicon sulfur Monel400 minimum 63 28 maximum 34 2.5 0.3 2 0.5 0.024 Physical performance of Monel 400:melting point density 8.83 g/cm3 1300-1390 ℃ Mechanical properties of Monel 400 annealed at room temperatureAll...
0.8-36mm Thickness Factory Manufacturer Corrosion Preventive Monel400 Nickel Based Alloy Sheet Price Product Description Chemical Composition Grade Ni% Cu% Fe% Mn% C% Si% S% Monel 400 Min 63 28-34 Max 2.5 Max 2.0 Max 0.30 Max 0.50 Max 0.024 Monel 400...
bonding interface, high self corrosion current, and corrosion resistance similar to substrate Q345R;The uneven microstructure, chemical composition, and mechanical properties formed by explosive welding bonding interface are the main reasons for the decrease in corrosion resistance of the bonding interface.