The Effect of Powder Ball Milling on the Microstructure and Mechanical Properties of Sintered Fe-Cr-Mo-Mn-(Cu) Steel

Q4 Materials Science Powder Metallurgy Progress Pub Date : 2017-12-01 DOI:10.1515/pmp-2017-0009

P. Kulecki, E. Lichańska

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引用次数: 6

Abstract

Abstract The effect of ball milling powder mixtures of Höganäs pre-alloyed iron Astaloy CrM, low-carbon ferromanganese Elkem, elemental electrolytic Cu and C-UF graphite on the sintered structure and mechanical properties was evaluated. The mixing was conducted using Turbula mixer for 30 minutes and CDI-EM60 frequency inverter for 1 and 2 hours. Milling was performed on 150 g mixtures with (in weight %) CrM + 1% Mn, CrM + 2% Mn, CrM + 1% Mn + 1% Cu and CrM + 2% Mn + 1% Cu, all with 0.6%C. The green compacts were single pressed at 660 MPa according to PN-EN ISO 2740. Sintering was carried out in a laboratory horizontal furnace Carbolite STF 15/450 at 1250°C for 60 minutes in 5%H2 – 95%N2 atmosphere with a heating rate of 75°C/min, followed by sintering hardening at 60°C/min cooling rate. All the steels were characterized by martensitic structures. Mechanical testing revealed that steels based on milled powders have slightly higher mechanical properties compared to those only mixed and sintered. The best combination of mechanical properties, for ball milled CrM + 1% Mn + 1% Cu was UTS 1046 MPa, TRS 1336 MPa and A 1.94%.

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粉末球磨对烧结Fe-Cr-Mo-Mn-（Cu）钢组织和力学性能的影响

研究了Höganäs预合金铁Astaloy CrM、低碳锰铁Elkem、元素电解Cu和C-UF石墨混合球磨粉对烧结组织和力学性能的影响。使用turbulermixer进行混音30分钟，使用CDI-EM60变频器进行混音1小时和2小时。在150 g(重量%)含0.6%C的CrM + 1% Mn、CrM + 2% Mn、CrM + 1% Mn + 1% Cu和CrM + 2% Mn + 1% Cu的混合物中进行铣削。根据PN-EN ISO 2740，绿色压片在660 MPa下进行单次压制。在实验室卧式炉STF 15/450中，在5%H2 - 95%N2气氛中，在1250℃下，以75℃/min的升温速率烧结60分钟，然后以60℃/min的冷却速率烧结硬化。所有钢均以马氏体组织为特征。力学测试表明，与混合和烧结的钢相比，以研磨粉末为基础的钢具有略高的力学性能。球磨后，CrM + 1% Mn + 1% Cu的最佳力学性能组合为UTS 1046 MPa, TRS 1336 MPa, A 1.94%。

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Powder Metallurgy Progress Materials Science-Metals and Alloys

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