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The Japan Society for Technology and Plasticity, pp 179–180įurushima T, Hung NQ, Manabe K et al (2012) Development of semi-die-less metal bellows forming process. 63rd Japanese joint conference for the technology of plasticity, Kita Kyushu, November 2012. In: Proceedings of the 63rd Japanese joint conference for the technology of plasticity. Procedia Eng 207:1767–1772įurushima T, Suzuki Y, Zhang ZC et al (2012) Deformation behavior of metal tubes in semi-die-less bellows forming. Grzancic G, Hiegemann L, Khalifa NB (2017) Investigation of new tool design for incremental profile forming. In: Tekkaya AE (ed) 60 Excellent inventions in metal forming, 1st edn. Grzancic G, Murata M, Becker C et al (2015) Incremental profile forming. Grzancic G, Becker C, Khalifa NB (2016) Basic analysis of the incremental profile forming process. Grzancic G, Becker C, Hermes M et al (2014) Innovative machine design for incremental profile forming. Tekkaya AE, Khalifa NB, Grzancic G et al (2014) Forming of lightweight metal components: Need for new technologies. Pei HZ, Yin ZS, Zhang GL et al (2011) Research on Ni-P alloy electroless casting process for micro-bellows. The Japan Society for Technology and Plasticity, pp 275–276 59th Japanese joint conference for the technology of plasticity, Hiroshima, November 2008. In: Proceedings of the 59th Japanese joint conference for the technology of plasticity. Koyama H, Aoyagi T (2008) Development of pinch roll type incremental forming equipment. Zhan M, Shi F (2014) Forming mechanism and rules of mandreless neck-spinning on corrugated tubes. Yuan Z, Huo SH, Ren JT (2019) Study on the hydroforming technology of reinforced s-shaped bellows. Peng HL, Zhang XL, Li ZQ (2015) Numerical simulation and experiment of bellows hydroforming. Zhang ZD, Wang GD, Chen CQ (2016) Numerical simulation of mechanical behavior of stack-welded bellow under cyclic tension and compression. Lee SK, Chang WS, Yoo WS et al (2000) A study on a vision sensor based laser welding system for bellows. Teramae T, Nakamura K, Ueno K et al (2000) Effects of hydro-static forming conditions on shape accuracy of large bellows.

Sensor Actuat A: Phys 167:484–494īardi FC, Kyriakides S (2006) Plastic buckling of circular tubes under axial compression-part I: experiments. Shapiro Y, Wolf A, Gabor K (2011) Bi-bellows: pneumatic bending actuator. Liebenberg L, Meyer JP (2007) In–tube passive heat transfer enhancement in the process industry. Int J Adv Manuf Technol 93:3211–3219įurushima T, Hung NQ, Manabe K et al (2013) Development of semi-die-less metal bellows forming process. Made in Detroit!ĬA Residents: WARNING: Cancer and Reproductive Harm M, Shamsi M (2017) A new approach in producing metal bellows by local arc heating: a parametric study. All parts are cut and TIG welded in our shop. These are a great addition to our Outlaw K-member kit and provide superior geometry. The spindles were designed to be used in conjunction with a stiletto style rack. New from Team Z Motorsports are our Outlaw Style Drop Spindles! These spindles provide a 2" drop while being paired up with Strange, Aerospace Components, or TBM brakes that use a standard Mustang V8 Spindle.