Effect of MnS Distribution on Machinability in Low Carbon Free-Cutting Steel

机译：MnS分布对低碳易切削钢可加工性的影响

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Conventionally, low carbon free-cutting steels are added lead (Pb) in order to cut the complicated and precise configurations of various parts. However, lead is listed in EU Directives as a harmful element for environments. In these parts, the first priority in developing lead-free free-cutting steel is not only to facilitate high-efficiency cutting but also to provide, without using lead, an extremely smooth finished surface after machining. Usually, to achieve long tool life in steel cutting, sulfur is added and it forms MnS inclusions in the steel. However, the shape and distribution of MnS have great effect on the surface roughness of machined surfaces. Therefore, in this paper, the effect of MnS distribution is studied. As a result, it is clarified that the developed steel with high S content and homogeneous distribution of fine MnS grains has better machinability, especially on the surface roughness, than that of the conventional leaded steel, SAE12L14.

机译：常规上，低碳易切削钢被添加铅（Pb），以切削各种零件的复杂而精确的结构。但是，铅在欧盟指令中列为对环境有害的元素。在这些零件中，开发无铅易切削钢的首要任务不仅是促进高效切削，而且在不使用铅的情况下，在加工后提供极其光滑的精加工表面。通常，为了在钢切削中获得较长的刀具寿命，会添加硫，并在钢中形成MnS夹杂物。然而，MnS的形状和分布对机加工表面的表面粗糙度有很大的影响。因此，本文研究了MnS分布的影响。结果表明，与传统的含铅钢SAE12L14相比，具有高S含量和均匀分布的MnS细晶粒均匀分布的发达钢具有更好的切削性，特别是在表面粗糙度方面。

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《Materials science amp; technology 2008 conference and exhibition (MSamp;T'08): the leading forum addressing structure, properties, processing and performance across the materials community》|2008年|p.1812-1820|共9页
会议地点 Pittsburgh PA(US);Pittsburgh PA(US)
作者
M. Hashimura; A. Mizuno; K. Miyanishi;
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作者单位

Muroran RD Lab., Nippon Steel Corporation 12 Nakamachi, Muroran, Hokkaido, JAPAN;

Muroran RD Lab., Nippon Steel Corporation 12 Nakamachi, Muroran, Hokkaido, JAPAN;

Muroran RD Lab., Nippon Steel Corporation 12 Nakamachi, Muroran, Hokkaido, JAPAN;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
lead free free-cutting steel; free-machining steel; environment; surface roughness;

机译：无铅易切削钢；易切削钢；环境；表面粗糙度;

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专利

1. Effect of MnS Distribution on Machinability in Low-Carbon Free-Cutting Steel [J] . M. Hashimura, A. Mizuno, K. Miyanishi Iron & Steel Technology . 2009,第9期

机译：MnS分布对低碳易切削钢可加工性的影响
2. An investigation on the machinability of newly developed low-carbon sulphurised free-cutting steels [J] . Xia Xiquan, Zhang Junsheng, Zou Yuming Proceedings of the Institution of Mechanical Engineers, Part B. Journal of engineering manufacture . 2016,第9期

机译：新型低碳硫化易切削钢的切削性能研究
3. The Effect of Some Kinds of Metallurgical and Operation factors on the Machinability of Low Carbon S-Pb Free-Cutting Steel [J] . Kohichi Isobe 材料とプロセス: 日本鉄鋼協会講演論文集 . 1996,第3期

机译：几种冶金和操作因素对低碳S-Pb自由切削钢可切削性的影响
4. Effect of MnS Distribution on Machinability in Low Carbon Free-Cutting Steel [C] . M. Hashimura, A. Mizuno, K. Miyanishi Materials Science and Technology Conference and Exhibition . 2008

机译：MNS分布对低碳自由切削钢加工性的影响
5. Inclusions Size Distributions after Calcium Treatment in Low Carbon Aluminum Killed Steels [D] . Ferreira do Nascimento, Mauro Elias. 2018

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7. Wear and MnS Layer Adhesion in Uncoated Cutting Tools When Dry and Wet Turning Free-Cutting Steels [O] . D. Martinez Krahmer, S. Hameed, A. J. Sánchez Egea, 2019

机译：干燥湿式钢材的未涂层切削刀具中的磨损和MNS层粘附
8. FRACTOGRAPHY - PART 13 EXAMINATION OF ELEVATED-TEMPERATURE FRACTURE IN A LOW-CARBON FREE-MACHINING STEEL [R] . E. P. Dahlberg, J. E. Flint 1963

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Effect of MnS Distribution on Machinability in Low Carbon Free-Cutting Steel

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