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Metals Technology Volume 6, 1979 - Issue 1
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Articles

Relationship between lead content of Cu–40Zn, machinability, and svvarf surface composition determined by Auger electron spectroscopy

C. T. H. Stoddart
,
C. Lea
,
W. A. Dench
,
P. Green
&
H. R. Pettit
Pages 176-184 | Published online: 19 Jul 2013

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Nima Zoghipour, Emre Tascioglu & Yusuf Kaynak. (2023) Machinability of extruded and multi-directionally hot forged eco-friendly brass alloys. Canadian Metallurgical Quarterly 0:0, pages 1-12.
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Fritz Klocke, Christoph Nobel & Drazen Veselovac. (2016) Influence of Tool Coating, Tool Material, and Cutting Speed on the Machinability of Low-Leaded Brass Alloys in Turning. Materials and Manufacturing Processes 31:14, pages 1895-1903.
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S. Kuyucak & M. Sahoo. (1996) A Review of the Machinability of Copper-Base Alloys. Canadian Metallurgical Quarterly 35:1, pages 1-15.
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N. Gane. (1981) The effect of lead on the friction and machining of brass. Philosophical Magazine A 43:3, pages 545-566.
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C. T. H. Stoddart & C. P. Hunt. (1981) Alloy surface composition resulting from fabrication, as determined by surface secondary-ion mass spectrometry. Metals Technology 8:1, pages 205-212.
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Articles from other publishers (17)

Te Zhu, Wei Li, Jonathan Chun Ming Kwok, Kai Wing Siu, Lu Yin & Alfonso Hing Wan Ngan. (2023) Metallurgical pathways of lead leaching from brass. npj Materials Degradation 7:1.
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Jakob Johansson, Per Alm, Rachid M’Saoubi, Per Malmberg, Jan-Eric Ståhl & Volodymyr Bushlya. (2022) On the function of lead (Pb) in machining brass alloys. The International Journal of Advanced Manufacturing Technology 120:11-12, pages 7263-7275.
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Athanasios Vazdirvanidis, Andreas Rikos, Anagnostis I. Toulfatzis & George A. Pantazopoulos. (2022) Electron Backscatter Diffraction (EBSD) Analysis of Machinable Lead-Free Brass Alloys: Connecting Texture with Fracture. Metals 12:4, pages 569.
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Paul Stavroulakis, Anagnostis I. Toulfatzis, George A. Pantazopoulos & Alkiviadis S. Paipetis. (2022) Machinable Leaded and Eco-Friendly Brass Alloys for High Performance Manufacturing Processes: A Critical Review. Metals 12:2, pages 246.
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K.W. Siu, J.C.M. Kwok & A.H.W. Ngan. (2020) Thermo-mechanical processing of brass components for potable-water usage increases risks of Pb leaching. Water Research 186, pages 116414.
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R.O. Ferreira, G.B. Galvani, I.S. Tertuliano, A.C.P. Rodrigues & C.R.F. Azevedo. (2019) Characterization and evolution of the coefficient of friction during pin on disc tribotest: Comparison between C10200 Cu, AA6082-T6 Al and C36000 brass pins under varying normal loads. Tribology International 138, pages 403-414.
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Vincent S. Smentkowski, Michael R. Keenan & Henrik Arlinghaus. (2016) Using ToF-SIMS to study industrial surface phenomena. Surface Science 652, pages 39-45.
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Christoph Nobel, Uwe Hofmann, Fritz Klocke, Drazen Veselovac & Hendrik Puls. (2015) Application of a new, severe-condition friction test method to understand the machining characteristics of Cu–Zn alloys using coated cutting tools. Wear 344-345, pages 58-68.
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Christoph Nobel, Uwe Hofmann, Fritz Klocke & Drazen Veselovac. (2015) Experimental investigation of chip formation, flow, and breakage in free orthogonal cutting of copper-zinc alloys. The International Journal of Advanced Manufacturing Technology.
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Vincent S. Smentkowski. 2014. Surface Analysis and Techniques in Biology. Surface Analysis and Techniques in Biology 1 7 .
V. Buršı́ková, J. Buršı́k, V. Navrátil & K. Milička. (2002) Creep behaviour of leaded brass. Materials Science and Engineering: A 324:1-2, pages 235-238.
Crossref
Edward M. Trent & Paul K. Wright. 2000. Metal Cutting. Metal Cutting 251 310 .
R. M. D. Mesquita & P. A. S. Lourenço. 1996. Advanced Manufacturing Systems and Technology. Advanced Manufacturing Systems and Technology 731 738 .
E.M. TRENT. 1991. Metal Cutting. Metal Cutting 188 242 .
M. P. Seah. 1986. Microscopic Methods in Metals. Microscopic Methods in Metals 219 248 .
E.M. TRENT. 1984. Metal Cutting. Metal Cutting 172 220 .
B. Mills & A. H. RedfordB. Mills & A. H. Redford. 1983. Machinability of Engineering Materials. Machinability of Engineering Materials 93 123 .

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