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13818 thread forming tap11/23/2023 ![]() Reiter AE, Brunner B, Ante M, Rechberger J (2006) Investigation of several PVD coatings for blind hole tapping. Jin M, Watanabe S, Miyake S, Murakawa M (2000) Trial fabrication and cutting performance of c-BN-coated taps. Pereira IC, Vianello PI, Boing D, Guimarães G, da Silva MB (2019) An approach to torque and temperature thread by thread on tapping. Han S, Faverjon P, Valiorgue F, Joël R (2016) Heat flux density distribution differences in four machining processes of AlSi7 block: MQL drilling, tapping, reaming and dry milling. Ingeniare Revista Chilena de Ingeniería 17:267–274 CIRP Ann Manuf Technol 66(1):109–112īrandão LC, Coelho RT (2009) Temperature and heat flow when tapping of the hardened steel using different cooling systems. Arab J Sci Eng 41:4313–4326īiermann D, Oezkaya E (2017) CFD simulation for internal coolant channel design of tapping tools to reduce tool wear. Ribeiro Filho SLM, Lauro CH, Bueno AHS, Brandão LC (2016) effects of the dynamic tapping process on the biocompatibility of Ti-6Al-4V alloy in simulated human body environment. Wear 250:362–365īelluco W, De Chiffre L (2002) Surface integrity and part accuracy in reaming and tapping stainless steel with new vegetable based cutting oils. Xuedong W, Haigang C, Shengrong Y, Dapu W (2001) In situ triboreduction of organo-copper compound in titanium alloys tapping. Wan M, Ma YC, Feng J, Zhang WH (2017) Mechanics of tapping process with emphasis on measurement of feed error and estimation of its induced indentation forces. ![]() J Manuf Sci Eng 124(2):248–257Īhn JH, Lee DJ, Kim SH, Kim HY, Cho KK (2003) Effects of synchronizing errors on cutting performance in the ultra-high-speed tapping. Int J Mech Sci 40(12):1209–1222ĭogra APS, DeVor ER, Kapoor SG (2002) Analysis of feed errors in tapping by contact stress model. Zhang D-Y, Chen D-C (1998) Relief-face friction in vibration tapping. Ma YC, Wan M, Yang Y, Zhang WH (2019) Dynamics of tapping process. ![]() Finally, based on this review are proposed lines of research, considering the shortcomings of the contemporary and revised works, that can increase the number of technical information for all threading processes, optimising the current way of making threads. Furthermore, special internal threading processes were also revised, demonstrating the current developments and their gaps for new studies. The traditional threading operations such as machining and forming tapping were contextualised, showing the main research with the advances generated in these processes. ![]() Thus, this article provides a review, demonstrating the evolution and the main studies in threading processes in the last 20 years, showing the main results obtained and the influence of threading in manufacturing processes. Besides, new materials for tooling and coatings have been developed, allowing a significant evolution in the threading process. Basically, since its invention, the threading tool has been developed, and its geometry has been optimised. The great importance of using threaded components, in industries and everyday life, is related to the versatility that allows the assembly and disassembly of components exceptionally quickly. Thread profiles can be considered as mechanical components which contributed to improving the evolution of machines and devices throughout all the history of man. ![]()
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