Author:
Fan Yazhou,Zhang Wenjia,Peng Xiangyang,Huang Shangshi,Li Yinge,Hu Shixun,Li Qi,He Jinliang
Publisher
Springer Nature Singapore
Reference11 articles.
1. Muhanmad A, Zulkurnain A, Kwan L, Muhanmad T (2021) Polypropylene-based nanocomposites for HVDC cable insulation. IET Nanodielectr 4(3):84–97
2. Yingwei O, Amir P, Anja L, Xiangdong X, Thomas G, Per-Ola H, Christian M (2021) High-temperature creep resistant ternary blends based on polyethylene and polypropylene for thermoplastic powercable insulation. J Polym Sci 59(11):1084–1094
3. Shixun H, Hao Y, Qi Z, Jun L, Mingti W, Shangshi H, Jun H, Qi L, Jinliang H (2022) Deep trap origins, characteristics, and related mechanisms in chemically grafted polypropylene with enhanced direct current volume resistivity. J Phys Chem C 126(38):16280–16288
4. Linzhen F, Qi L, Hao Y, Shangshi H, Jinliang H (2022) Influence and mechanism of grafting on thermal oxidative aging of polypropylene. In: Proceedings of the CSEE, vol 42, no 11 pp 4227–4238 (in Chinese)
5. Fabiani D, Montanari C, Laurent C, Teyssedre G, Morshuis F, Bodega R, Dissado L (2008) HVDC cable design and space charge accumulation. Part 3: effect of temperature gradient. IEEE electrical insulation magazine, vol 24, no 2, pp 5–14