Characterizations of high-density polyethylene by terahertz time-domain spectroscopy
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Publisher
China Science Publishing & Media Ltd.
Link
https://engine.scichina.com/doi/pdf/8ADFA6178E814DBE89BC4776614D5FDF
Reference35 articles.
1. Tantry S., Anantharaman D., Thimmappa B. H. S.. Studying banded spherulites in HDPE by electron microscopy. 2020, 89:
2. Khodabakhshi F., Haghshenas M., Sahraeinejad S.. Microstructure-property characterization of a friction-stir welded joint between AA5059 aluminum alloy and high density polyethylene. 2014, 98: 73-82.
3. Cheng H. T., Shen X. S.. Progress in the recent modification of HDPE high density polyethylene, China plastic industry. 2020, 48: 1-8.
4. Mackie J. S., Rudin A.. Electron microscopy of solvent-etched polyethylene surfaces. 1961, 49: 407-417.
5. Muratov D.S., Stepashkin A.A., Anshin S.M.. Controlling thermal conductivity of high density polyethylene filled with modified hexagonal boron nitride (hBN). 2017, 735: 1200-1205.
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