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International Journal of Production Research Volume 14, 1976 - Issue 5
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Original Articles

The operation and performance of a groove-type chip forming device

B. WORTHINGTON The City University, St. John Street, London EC1, England
Pages 529-558 | Received 02 Jul 1975, Published online: 07 May 2007

Citations (23)

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Haidong Wu, Wei Liu, Yuerui Xu, Lifu Lin, Yehua Li & Shanghua Wu. (2023) Vat photopolymerization-based 3D printing of complex-shaped and high-performance Al2O3 ceramic tool with chip-breaking grooves: Cutting performance and wear mechanism. Journal of Asian Ceramic Societies 11:1, pages 159-169.
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Articles from other publishers (22)

Wei Liu, Haidong Wu, Yuerui Xu, Lifu Lin, Yehua Li & Shanghua Wu. (2023) Cutting performance and wear mechanism of zirconia toughened alumina ceramic cutting tools formed by vat photopolymerization-based 3D printing. Ceramics International 49:14, pages 23238-23247.
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I. S. Jawahir, J. Schoop, Y. Kaynak, A. K. Balaji, R. Ghosh & T. Lu. (2020) Progress Toward Modeling and Optimization of Sustainable Machining Processes. Journal of Manufacturing Science and Engineering 142:11.
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M F Zamri & A R Yusoff. (2019) Effect of Rake Angle and Feed Rate on Chip Segmentation in Machining Carbon Steel 1050. IOP Conference Series: Materials Science and Engineering 530:1, pages 012011.
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V. A. Grechishnikov, P. M. Pivkin, A. V. Isaev, V. B. Romanov & Yu. V. Maksimov. (2018) Cutters for Machining End Channels. Russian Engineering Research 38:10, pages 798-801.
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Chenchun Shi, Aibing Yu, Jianzhao Wu, Weiyang Niu, Yuan He, Xin Hong & Quanbo Shang. (2017) Study on position of laser cladded chip breaking dot on rake face of HSS turning tool. International Journal of Machine Tools and Manufacture 122, pages 132-148.
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David Stephenson & John Agapiou. 2016. Metal Cutting Theory and Practice, Third Edition. Metal Cutting Theory and Practice, Third Edition 623 664 .
K.C. Ee, P.X. Li, A.K. Balaji, I.S. Jawahir & R. Stevenson. (2006) Performance-Based Predictive Models and Optimization Methods for Turning Operations and Applications: Part 1—Tool Wear/Tool Life in Turning with Coated Grooved Tools. Journal of Manufacturing Processes 8:1, pages 54-66.
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K.C. Ee, A.K. Balaji & I.S. Jawahir. (2003) Progressive tool-wear mechanisms and their effects on chip-curl/chip-form in machining with grooved tools: an extended application of the equivalent toolface (ET) model. Wear 255:7-12, pages 1404-1413.
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N. Fang. (2002) Machining with tool–chip contact on the tool secondary rake face—Part I: a new slip-line model. International Journal of Mechanical Sciences 44:11, pages 2337-2354.
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K.C. Ee, A.K. Balaji, P.X. Li & I.S. Jawahir. (2001) Force decomposition model for tool-wear in turning with grooved cutting tools. Wear 249:10-11, pages 985-994.
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N Fang & I.S Jawahir. (2001) A new methodology for determining the stress state of the plastic region in machining with restricted contact tools. International Journal of Mechanical Sciences 43:8, pages 1747-1770.
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I.S. Jawahir, R. Ghosh, A.K. Balaji & P.X. Li. (2000) Predictability of tool failure modes in turning with complex grooved tools using the equivalent toolface (ET) model. Wear 244:1-2, pages 94-103.
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B. K. Ganapathy & I. S. Jawahir. (1998) Modeling the Chip-Work Contact Force for Chip Breaking in Orthogonal Machining With a Flat-Faced Tool. Journal of Manufacturing Science and Engineering 120:1, pages 49-56.
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Ning Fang. (1998) Influence of the geometrical parameters of the chip groove on chip breaking performance using new-style chip formers. Journal of Materials Processing Technology 74:1-3, pages 268-275.
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I. S. Jawahir & X. D. Fang. (1995) A knowledge-based approach for designing effective grooved chip breakers ? 2D and 3D chip flow, chip curl and chip breaking. The International Journal of Advanced Manufacturing Technology 10:4, pages 225-239.
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X.D. Fang & I.S. Jawahir. (1991) On predicting chip breakability in machining of steels with carbide tool inserts having complex chip groove geometries. Journal of Materials Processing Technology 28:1-2, pages 37-47.
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J. Rotberg, A. Ber & R. Wertheim. (1991) Chip Control in Cut-off Tools. CIRP Annals 40:1, pages 73-77.
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I.S. Jawahir. (1990) On the Controllability of Chip Breaking Cycles and Modes of Chip Breaking in Metal Machining. CIRP Annals 39:1, pages 47-51.
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Christian Nedelß, Wolfgang Hintze & C.A. Van Luttervelt. (1989) Characteristic Parameters of Chip Control in Turning Operations with Indexable Inserts and Three-Dimensionally Shaped Chip Formers. CIRP Annals 38:1, pages 75-79.
Crossref
I.S. Jawahir. (1988) The chip control factor in machinability assessments: Recent trends. Journal of Mechanical Working Technology 17, pages 213-224.
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I. S. Jawahir. (1988) A survey and future predictions for the use of chip breaking in unmanned systems. The International Journal of Advanced Manufacturing Technology 3:4, pages 87-104.
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L. De Chiffre. (1982) Cutting tools with restricted contact. International Journal of Machine Tool Design and Research 22:4, pages 321-332.
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