Heat shrinkage of annealed superdrawn fibres. Komatsu T, Enoki S, Aoshima A (1991) Effect of pressure on drawing poly (oxymethylene) fibres: 4. Komatsu T, Enoki S, Aoshima A (1991) The effects of pressure on drawing polyoxymethylene: 1. Kikutani T (2002) Formation and structure of high mechanical performance fibers. Konaka T, Nakagawa K, Yamakawa S (1985) Mechanical and physical properties of ultraoriented polyoxymethylene produced by microwave heating drawing. Komatsu T, Enoki S, Aoshima A (1991) The effects of pressure on drawing polyoxymethylene: 2. Nakagawa K, Konaka T, Yamakawa S (1985) Production of ultrahigh modulus polyoxymethylene by drawing under dielectric heating. Polymer 42(4):1547–1559Ĭlark E, Scott L (1974) Superdrawn crystalline polymers: a new class of high-strength fiber. Samon JM et al (2001) Structure development during the melt spinning of poly (oxymethylene) fiber. Kikutani T, Okawa H (2004) Polyoxymethylene fiber and method for production thereof.
Fundamental equations on the dynamics of melt spinning. Kase S, Matsuo T (1965) Studies on melt spinning. Kuchinka M et al (1971) Effect of structural changes on the sorption properties of polyformaldehyde fibers (heat stretching-induced changes effect on strength, sorption and structural properties of polyformaldehyde fibers, noting structural orientation enhancement and porosity growth). Gezovich D, Geil P (1971) Deformation of polyoxymethylene by rolling. Bigg D (1976) A review of techniques for processing ultra-high modulus polymers.