Alloy modification and ultrasonic-assisted milling of wear-resistant alloys with defined surfaces

IF 2.4 4区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING Welding in the World Pub Date : 2024-06-11 DOI:10.1007/s40194-024-01786-6
M. Giese, M. Graebner, D. Schroepfer, K. Treutler, S. Lorenz, T. Kannengiesser, V. Wesling
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Abstract

The reduction of CO2 emissions is closely linked to the development of highly efficient and economical steel components in plant and process engineering. To withstand the high combined corrosive, tribological, thermal, and mechanical stresses, wear-resistant coatings tailored to the application and steel grade are used. In addition to the increasing demand to substitute conventional cobalt alloys with nickel alloys, there is also a growing need for defined or functional surfaces of high integrity. Due to high tool wear, milling operations required to produce the complex geometries of the components are often not economically feasible for SMEs. By means of alloy modification of the filler metals for nickel-based plasma build-up welded wear-resistant coatings and by the use of innovative ultrasonic-assisted milling processes more favourable machinability shall be achieved without reducing the wear protection potential. In this paper, the influence of the microstructure and precipitation morphology adjusted by means of alloy modification on the machinability is investigated. This is done based on a wear protection alloy NiCrMoSiFeB (trade name: Colmonoy 56 PTA) typically used for screw machines, which substitutes conventional CoCr alloys (Stellite). Metallurgical investigations and in-situ measurements of occurring process forces and temperatures at the tool cutting edge during milling as well as subsequent investigations of tool wear and surface integrity allow a detailed analysis and correlation between microstructural properties and machinability. For the cast samples, a clear change in the microstructure and hardness can be seen through the addition of Al, Ti, or Nb. These differences lead to an improvement in the machining process for Nb. Al and Ti cause long-needled or star-shaped precipitations and hardness increases, which lead to higher cutting forces and increased tool wear.

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合金改性和超声波辅助铣削具有特定表面的耐磨合金
减少二氧化碳排放与在设备和工艺工程中开发高效经济的钢制部件密切相关。为了承受高强度的腐蚀、摩擦、热和机械综合应力,需要使用针对不同应用和钢种的耐磨涂层。除了用镍合金替代传统钴合金的需求日益增长外,对具有高完整性的特定或功能性表面的需求也在不断增长。由于刀具磨损大,生产复杂几何形状部件所需的铣削加工对中小企业来说往往不经济可行。通过对镍基等离子堆焊耐磨涂层的填充金属进行合金改性,以及使用创新的超声波辅助铣削工艺,可以在不降低磨损保护潜力的情况下获得更有利的加工性能。本文研究了通过合金改性调整微观结构和沉淀形态对加工性能的影响。该研究基于通常用于螺杆机的耐磨合金 NiCrMoSiFeB(商品名:Colmonoy 56 PTA),该合金可替代传统的 CoCr 合金(Stellite)。通过对铣削过程中刀具切削刃上发生的加工力和温度进行冶金学调查和现场测量,以及随后对刀具磨损和表面完整性进行调查,可以详细分析微观结构特性与可加工性之间的关系。对于铸件样品,通过添加 Al、Ti 或 Nb,可以看到微观结构和硬度的明显变化。这些差异改善了 Nb 的机加工工艺。铝和钛会导致长针状或星状析出和硬度增加,从而导致切削力增大和刀具磨损加剧。
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来源期刊
Welding in the World
Welding in the World METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
4.20
自引率
14.30%
发文量
181
审稿时长
6-12 weeks
期刊介绍: The journal Welding in the World publishes authoritative papers on every aspect of materials joining, including welding, brazing, soldering, cutting, thermal spraying and allied joining and fabrication techniques.
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