-
Subject Areas :
1 -
Keywords: -,
Abstract :
-
References:
1. Sidney Hanna Dodiuk., Goodman H., Handbook of Thermoset Plastics, Third Edition, USA, 555-557, 2014.
2. Manas Chanda Salil Roy K., Industrial Polymers Specialty Polymers and Their Applications, CRC Press, Fourth Edition, UK, 139, 2008.
3. Editors: J.R., White De S.K., Rubber Technologist’s Handbook, Rapra Technology Limited, UK, 76, 2001.
4. Brydson J. A., Plastics Materials, Seventh Edition, UK, 832 – 839, 1999.
5. Liu D., Song L., Song H., Chen J., Tian Q., Chen L., & Sun G., Correlation Between Mechanical Properties and Microscopic Structures of an Optimized Silica Fraction in Silicone Rubber. Composites Science and Technology, 165, 373-379, 2018.
6. Pradhan B., Roy S., Srivastava S. K., & Saxena A., Synergistic Effect of Carbon Nanotubes and Clay Platelets in Reinforcing Properties of Silicone Rubber Nano Composites. Journal of Applied Polymer Science, 132, 1-11, 2015.
7. Zhang C., Wang J., & Song S, Preparation of a Novel Type of Flame Retardant Diatomite and Its Application in Silicone Rubber Composites. Advanced Powder Technology, 30, 1567-1575, 2019.
8. Zhang J., Zhang H., Wang H., Chen F., & ZhaoY., Extruded Conductive Silicone Rubber with High Compression Recovery and Good Aging‐Resistance for Electromagnetic Shielding Applications. Polymer Composites, 40, 1078-1086, 2019.
9. Li H., Chen W., Xu J., Li J., Gan L., Chu X., & Du H., Enhanced Thermal Conductivity by Combined Fillers in Polymer Composites. Thermochimica Acta, 676, 198-204, 2019.
10. Qi J., Wen Q., Zhu J., & He T., Synthesis of a Novel Intumescent Flame Retardant Based on Phosphorus, Nitrogen, and Silicone, and Application in VMQ. Journal of Thermal Analysis and Calorimetry, 137, 1549-1557, 2019.
11. Mi H.Y., Jing X., Huang H.X., & Turng L.S., Novel Polydimethylsiloxane (PDMS) Composites Reinforced with Three-Dimensional Continuous Silica Fibers. Materials Letters, 210, 173-176, 2018.
12. Maghsoudi K., Momen G., Jafari R., & Farzaneh M., Direct Replication of Micro-Nanostructures in the Fabrication of Superhydrophobic Silicone Rubber Surfaces by Compression Molding. Applied Surface Science, 458, 619-628, 2018.
13. Wu T., Lai X., Li H., Chen Y., Wang Y., Liu T., & Zeng X., Synergistic Enhancement of Vinyltriethoxysilane and Layered Mg–Al Double Hydroxide on the Tracking and Erosion Resistance of Silicone Rubber. Polymer Testing, 84, 106373, 1-12, 2020.
14. Shit S.C., & Shah P., A Review on Silicone Rubber. National Academy Science Letters, 36, 355-365, 2013.
15. Anyszka R., Bieliński D. M., Pędzich Z., Parys G., Rybiński P., Zarzecka-Napierała, & Szumera, M, Effect of Mineral Filler Additives on Flammability, Processing and Use of Silicone-Based Ceramifiable Composites. Polymer Bulletin, 75, 1731-1751, 2018.
16. Hu S., Chen F., Li J. G., Shen Q., Huang Z. X., & Zhang L. M, The Ceramifying Process and Mechanical Properties of Silicone Rubber/Ammonium polyphosphate/Aluminium Hydroxide/mica Composites. Polymer Degradation and Stability, 126, 196-203, 2016.
17. Anyszka R., Bieliński D. M., Pędzich Z., & Szumera M., Influence of Surface-Modified Montmorillonites on Properties of Silicone Rubber-Based Ceramizable Composites. Journal of Thermal Analysis and Calorimetry, 119, 111-121, 2015.
18. Zhou W. Y., Qi S. H., Zhao H. Z., & Liu N. L., Thermally Conductive Silicone Rubber Reinforced with Boron Nitride Particle. Polymer Composites, 28, 23-28, 2007.
19. Chiu H.T., Sukachonmakul T., Kuo M.T., Wang Y.H., & Wattanakul, K, Surface Modification of Aluminum Nitride by Polysilazane and Its Polymer-Derived Amorphous Silicon Oxycarbide Ceramic for the Enhancement of Thermal Conductivity in Silicone Rubber Composite. Applied surface science, 292, 928-936, 2014.
20. Yang D., Zhang W., Jiang B., & Guo Y., Silicone Rubber Ablative Composites Improved with Zirconium Carbide or Zirconia. Composites Part A: Applied Science and Manufacturing, 44, 70-77, 2013.
21. Zhou C., Yu L., Luo W., Chen Y., Zou H., & Liang M., Ablation Properties of Aluminum Silicate Ceramic Fibers and Calcium Carbonate Filled Silicone Rubber Composites. Journal of Applied Polymer Science, 132, 1-8, 2015.
22. Diao S., Zhang S., Yang Z., Feng S., Zhang C., Wang Z., & Wang G, Effect of Tetraphenylphenyl‐Modified Fumed Silica on Silicone Rubber Radiation Resistance. Journal of Applied Polymer Science, 120, 2440-2447, 2011.
23. Jerschow P., Silicone Elastomers, iSmithers Rapra Publishing, UK, Report 137, 12, 5-20, 2001.
24. Datta R.N., Rubber Curing Systems, iSmithers Rapra Publishing, UK, Report 144, 12, 23, 2002.
25. Diao S., Dong F., Meng J., Ma P., Zhao Y., & Feng, S, Preparation and Properties of Heat-Curable Silicone Rubber through Chloropropyl/Amine Crosslinking Reactions. Materials Chemistry and Physics, 153, 161-167, 2015.
26. Dong F., Wang X., Li S., Hao J., Tang X., Kuang, Applications of α, ω‐Telechelic Polydimethylsiloxane as Cross‐Linkers for Preparing High‐Temperature Vulcanized Silicone Rubber. Polymers for Advanced Technologies, 30, 932-940, 2019.
27. Dong FY., Diao S., Ma DP., Zhang SY., Feng SY., Preparation and Haracterization of 3‐Chloropropyl Polysiloxane‐Based Heat‐Curable Silicone Rubber Using Polyamidoamine Dendrimers as Cross‐Linkers. React Funct Polym, 96, 14‐20, 2015.
28. Dong F., Ma D., & Feng S., Aminopropyl-Modified Silica as Cross-Linkers of Polysiloxane Containing γ-Chloropropyl Groups for Preparing Heat-Curable Silicone Rubber. Polymer Testing, 52, 124-132, 2016.
29. Dong F., Zhao P., Dou R., & Feng S., Amine-Functionalized POSS as Cross-Linkers of Polysiloxane Containing γ-Chloropropyl Groups for Preparing Heat-Curable Silicone Rubber. Materials Chemistry and Physics, 208, 19-27, 2018.
30. Dong F., Lu H., Feng S., & Tang X., Preparation and Characterization of Silicone Rubber through the Reaction Between γ‐Chloropropyl and Amino Groups with Siloxane Polyamidoamine Dendrimers as Cross‐linkers. Polymers for Advanced Technologies, 29, 934-940, 2018.
1. Sidney Hanna Dodiuk., Goodman H., Handbook of Thermoset Plastics, Third Edition, USA, 555-557, 2014.
2. Manas Chanda Salil Roy K., Industrial Polymers Specialty Polymers and Their Applications, CRC Press, Fourth Edition, UK, 139, 2008.
3. Editors: J.R., White De S.K., Rubber Technologist’s Handbook, Rapra Technology Limited, UK, 76, 2001.
4. Brydson J. A., Plastics Materials, Seventh Edition, UK, 832 – 839, 1999.
5. Liu D., Song L., Song H., Chen J., Tian Q., Chen L., & Sun G., Correlation Between Mechanical Properties and Microscopic Structures of an Optimized Silica Fraction in Silicone Rubber. Composites Science and Technology, 165, 373-379, 2018.
6. Pradhan B., Roy S., Srivastava S. K., & Saxena A., Synergistic Effect of Carbon Nanotubes and Clay Platelets in Reinforcing Properties of Silicone Rubber Nano Composites. Journal of Applied Polymer Science, 132, 1-11, 2015.
7. Zhang C., Wang J., & Song S, Preparation of a Novel Type of Flame Retardant Diatomite and Its Application in Silicone Rubber Composites. Advanced Powder Technology, 30, 1567-1575, 2019.
8. Zhang J., Zhang H., Wang H., Chen F., & ZhaoY., Extruded Conductive Silicone Rubber with High Compression Recovery and Good Aging‐Resistance for Electromagnetic Shielding Applications. Polymer Composites, 40, 1078-1086, 2019.
9. Li H., Chen W., Xu J., Li J., Gan L., Chu X., & Du H., Enhanced Thermal Conductivity by Combined Fillers in Polymer Composites. Thermochimica Acta, 676, 198-204, 2019.
10. Qi J., Wen Q., Zhu J., & He T., Synthesis of a Novel Intumescent Flame Retardant Based on Phosphorus, Nitrogen, and Silicone, and Application in VMQ. Journal of Thermal Analysis and Calorimetry, 137, 1549-1557, 2019.
11. Mi H.Y., Jing X., Huang H.X., & Turng L.S., Novel Polydimethylsiloxane (PDMS) Composites Reinforced with Three-Dimensional Continuous Silica Fibers. Materials Letters, 210, 173-176, 2018.
12. Maghsoudi K., Momen G., Jafari R., & Farzaneh M., Direct Replication of Micro-Nanostructures in the Fabrication of Superhydrophobic Silicone Rubber Surfaces by Compression Molding. Applied Surface Science, 458, 619-628, 2018.
13. Wu T., Lai X., Li H., Chen Y., Wang Y., Liu T., & Zeng X., Synergistic Enhancement of Vinyltriethoxysilane and Layered Mg–Al Double Hydroxide on the Tracking and Erosion Resistance of Silicone Rubber. Polymer Testing, 84, 106373, 1-12, 2020.
14. Shit S.C., & Shah P., A Review on Silicone Rubber. National Academy Science Letters, 36, 355-365, 2013.
15. Anyszka R., Bieliński D. M., Pędzich Z., Parys G., Rybiński P., Zarzecka-Napierała, & Szumera, M, Effect of Mineral Filler Additives on Flammability, Processing and Use of Silicone-Based Ceramifiable Composites. Polymer Bulletin, 75, 1731-1751, 2018.
16. Hu S., Chen F., Li J. G., Shen Q., Huang Z. X., & Zhang L. M, The Ceramifying Process and Mechanical Properties of Silicone Rubber/Ammonium polyphosphate/Aluminium Hydroxide/mica Composites. Polymer Degradation and Stability, 126, 196-203, 2016.
17. Anyszka R., Bieliński D. M., Pędzich Z., & Szumera M., Influence of Surface-Modified Montmorillonites on Properties of Silicone Rubber-Based Ceramizable Composites. Journal of Thermal Analysis and Calorimetry, 119, 111-121, 2015.
18. Zhou W. Y., Qi S. H., Zhao H. Z., & Liu N. L., Thermally Conductive Silicone Rubber Reinforced with Boron Nitride Particle. Polymer Composites, 28, 23-28, 2007.
19. Chiu H.T., Sukachonmakul T., Kuo M.T., Wang Y.H., & Wattanakul, K, Surface Modification of Aluminum Nitride by Polysilazane and Its Polymer-Derived Amorphous Silicon Oxycarbide Ceramic for the Enhancement of Thermal Conductivity in Silicone Rubber Composite. Applied surface science, 292, 928-936, 2014.
20. Yang D., Zhang W., Jiang B., & Guo Y., Silicone Rubber Ablative Composites Improved with Zirconium Carbide or Zirconia. Composites Part A: Applied Science and Manufacturing, 44, 70-77, 2013.
21. Zhou C., Yu L., Luo W., Chen Y., Zou H., & Liang M., Ablation Properties of Aluminum Silicate Ceramic Fibers and Calcium Carbonate Filled Silicone Rubber Composites. Journal of Applied Polymer Science, 132, 1-8, 2015.
22. Diao S., Zhang S., Yang Z., Feng S., Zhang C., Wang Z., & Wang G, Effect of Tetraphenylphenyl‐Modified Fumed Silica on Silicone Rubber Radiation Resistance. Journal of Applied Polymer Science, 120, 2440-2447, 2011.
23. Jerschow P., Silicone Elastomers, iSmithers Rapra Publishing, UK, Report 137, 12, 5-20, 2001.
24. Datta R.N., Rubber Curing Systems, iSmithers Rapra Publishing, UK, Report 144, 12, 23, 2002.
25. Diao S., Dong F., Meng J., Ma P., Zhao Y., & Feng, S, Preparation and Properties of Heat-Curable Silicone Rubber through Chloropropyl/Amine Crosslinking Reactions. Materials Chemistry and Physics, 153, 161-167, 2015.
26. Dong F., Wang X., Li S., Hao J., Tang X., Kuang, Applications of α, ω‐Telechelic Polydimethylsiloxane as Cross‐Linkers for Preparing High‐Temperature Vulcanized Silicone Rubber. Polymers for Advanced Technologies, 30, 932-940, 2019.
27. Dong FY., Diao S., Ma DP., Zhang SY., Feng SY., Preparation and Haracterization of 3‐Chloropropyl Polysiloxane‐Based Heat‐Curable Silicone Rubber Using Polyamidoamine Dendrimers as Cross‐Linkers. React Funct Polym, 96, 14‐20, 2015.
28. Dong F., Ma D., & Feng S., Aminopropyl-Modified Silica as Cross-Linkers of Polysiloxane Containing γ-Chloropropyl Groups for Preparing Heat-Curable Silicone Rubber. Polymer Testing, 52, 124-132, 2016.
29. Dong F., Zhao P., Dou R., & Feng S., Amine-Functionalized POSS as Cross-Linkers of Polysiloxane Containing γ-Chloropropyl Groups for Preparing Heat-Curable Silicone Rubber. Materials Chemistry and Physics, 208, 19-27, 2018.
30. Dong F., Lu H., Feng S., & Tang X., Preparation and Characterization of Silicone Rubber through the Reaction Between γ‐Chloropropyl and Amino Groups with Siloxane Polyamidoamine Dendrimers as Cross‐linkers. Polymers for Advanced Technologies, 29, 934-940, 2018.
