O. L. Kulikov scite author profile

Commercially available thermoplastic elastomers (TPEs) based on block copolymers of diisocyanates and polyols (i.e., TPUEs) were used to delay sharkskin and stick-slip instabilities in the extrusion of linear low density polyethylene (LLDPE). When TPUE is added in a small mass fraction to LLDPE, it deposits at the die surface during extrusion and may postpone the onset of sharkskin instability to a 12-20 times higher rate of extrusion. Substantial delay of sharkskin was also achieved under conditions without slip of molten PE inside the die coated by TPUEs. Efficiency to delay the instabilities depends on elasticity of TPUE at processing temperature. The TPUEs could be a cost-effective substitution of fluorinated polymers such as processing aid, lubricant and release agent in the processing of polyethylene by extrusion, blow molding, and injection molding.

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Novel Processing Additives for Rotational Molding of Polyethylene

Kulikov

Hornung

Wagner

2009

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Over 85% of the articles manufactured via rotational molding employ Polyethylene (PE) resins. PE resins used for rotomolding have usually particle sizes less than about 0.8 mm and used as powders or micro-pellets. During heating in a rotating mold, these particles get fused and merge into one piece. A disadvantage of the rotomolding process is long cycle times that affect not only the production rate but also increase thermal degradation of the polymer due to its long exposure to heat. One of the problems in rotomolding is bubbles of gasses trapped during sintering of the PE powders which reduce mechanical strength of the article produced. We propose to use reacting mixtures of Polyethylene Glycol with citric acid as an additive to rotomolding grades of PE. The additive accelerates sintering of the PE particulates and greatly reduces number of bubbles in the melt but at high concentrations (>0.4 wt.%) it impedes flow of the particles. Fine powders with particles of irregular shape and wide distribution of sizes are characterized by low flowability while micro-pellets of oval shape with smooth surface have too high flowability for rotomolding. To improve cost-efficiency and quality of the rotomolding process we propose to use micro-pellets instead of powders and to fabricate micro-pellets by extrusion at reduced temperatures and cutting the produced strands in conditions of air-cooling. Amazingly, the same processing additives improve extrusion of PE resins and rotomolding of the PE micro-pellets. The additives also adjust flowability of micro-pellets in the direction to optimum. Silica fume, vinyl-silanes and stearates can be ingredients of the additive package. Mechanisms of the observed improvements are discussed.

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Wall detachment and high rate surface defects during extrusion of clay

Kulikov

Hornung

2002

Journal of Non-Newtonian Fluid Mechanics

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O. L. Kulikov

A simple way to suppress surface defects in the processing of polyethylene

Silanols cured by borates as lubricants in extrusion of LLDPE. Impact of elasticity of the lubricant on sliding friction

Novel processing aids for extrusion of polyethylene

Novel Processing Additives for Rotational Molding of Polyethylene

Wall detachment and high rate surface defects during extrusion of clay

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