Research on Spiral Engagement Cold Feeding Rubber Extruder

Yao Liu; Xin Yue Liu; Bai Yuan Lv

doi:10.4028/www.scientific.net/KEM.501.283

Paper Titles

The Binding Performance of Erythromycin Imprinted Polymeric Microspheres
p.263

Simulation of Micro-Gear Manufactured by Differential Injection Molding Based on Moldex 3D
p.269

Effects of Particle Size on the Rubber Mixing Process and Mechanical Properties of Compound
p.274

Research on Optimization of the Process Parameters of Bio-Packaging Materials by Response Surface Method
p.279

Research on Spiral Engagement Cold Feeding Rubber Extruder
p.283

Mechanical, Morphological and Thermally Behaviors of Natural Rubber/Aluminum Powder Composites
p.289

Effect of Processing Conditions on the Shrinkage and Warpage of Glass Fiber Reinforced PP Using Microcellular Injection Molding
p.294

Experimental Research and Development on Electrical Screw Tire Vulcanizing Machine
p.300

Kinematic Simulation of the Tripod Universal Joint with or without Gap
p.306

HomeKey Engineering MaterialsKey Engineering Materials Vol. 501Research on Spiral Engagement Cold Feeding Rubber...

Research on Spiral Engagement Cold Feeding Rubber Extruder

Abstract:

Through the experimental comparison of free feeding technology, roller feeding technology and spiral engagement feeding technology, it can be seen that the spiral engagement feeding technology has significantly increased production capacity, improved extrusion stability, reduced the energy consumption and does not hold shaft, not leak rubber, etc; at the same time, industrial application research on spiral engagement cold feeding extruder was carried out, as well as expanding its application research on this extruder with short fiber compound and environmental protection plate compound which is composed by waste plastic, rubber compound and waste oil. It proves that the work principle of spiral engagement cold feeding technology is feasible, also demonstrates that this extruder has a broad prospect of application.

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Periodical:

Key Engineering Materials (Volume 501)

Pages:

283-288

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.501.283

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Online since:

January 2012

Authors:

Yao Liu, Xin Yue Liu, Bai Yuan Lv

Keywords:

Cold Feeding, Extruder, Feeding Device, Research, Spiral Engagement

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References

[1] Baiyuan Lv, Feeding Apparatus and Technology in Spiral Engagement of Extruder, USA, US6299340B1, 2000-03-02.

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