兰州理工大学学报 ›› 2024, Vol. 50 ›› Issue (4): 17-22.

• 材料科学与工程 • 上一篇    下一篇

酚醛树脂基二级多孔泡沫碳的制备及其力学性能

贾建刚*1,2, 祁旺谦端智1, 王明1, 尤欣雅1, 刘第强1,2, 臧树俊1,2   

  1. 1.兰州理工大学 材料科学与工程学院, 甘肃 兰州 730050;
    2.兰州理工大学 省部共建有色金属先进加工与再利用国家重点实验室, 甘肃 兰州 730050
  • 收稿日期:2024-01-29 出版日期:2024-08-28 发布日期:2024-08-30
  • 通讯作者: 贾建刚(1977-),男,河北邯郸人,教授.Email:jiajg@lut.edu.cn
  • 基金资助:
    国家自然科学基金(52162005)

Preparation and mechanical properties of phenolic resin based secondary porous foam carbon

JIA Jian-gang1,2, QI Wang-qian-duan-zhi1, WANG Ming1, YOU Xin-ya1 LIU Di-qiang1,2, ZANG Shu-jun1,2   

  1. 1. School of Materials Science and Engineering, Lanzhou Univ. of Tech., Lanzhou 730050, China;
    2. State Key Laboratory of Advanced Processing and Recycling of Nonferrous Metals,Lanzhou Univ. of Tech., Lanzhou 730050, China
  • Received:2024-01-29 Online:2024-08-28 Published:2024-08-30

摘要: 以酚醛树脂为碳源前驱体,以NaCl粉末和自制盐球为造孔剂,用模板法制备高强度多级孔泡沫碳.通过盐球粒径和NaCl粉末对泡沫碳孔结构进行调控,研究造孔剂盐球粒径对泡沫碳孔结构和力学性能的影响.结果表明:当盐球体积分数相同时(盐球占泡沫碳胚体体积的60 %),随着盐球粒径增大,多级孔泡沫碳中盐球孔的均匀性降低,其韧带随着盐球粒径增大逐渐变粗;且盐球孔内部及韧带上存在大量NaCl粉末孔和气泡孔,孔与孔之间相互连通,形成了开孔结构.引入不同粒径的盐球后,多级孔泡沫碳的密度变化不明显,约为0.2 g/cm3,但压缩强度随盐球粒径增大逐渐降低.其中加入盐球粒径为14~35目的泡沫碳,压缩强度和比压缩强度最大分别为4.4 MPa和22 MPa·cm3/g.

关键词: 泡沫碳, 模板法, 盐球, 力学性能

Abstract: Using phenolic resin as carbon source precursor and NaCl powder along with a self-made salt ball as a pore-forming agent, high-strength multi-stage porous foam carbon was prepared by template method. The pore structure of foam carbon was regulated by the salt ball size and NaCl powder, and the effect of pore-forming agent salt ball size on the pore structure and mechanical properties of foam carbon was studied. The results showed thatwhen the volume percentage of salt ball is the same (salt ball accounted for 60 % of the volume of foam carbon embryo), with the increase of salt ball size, the uniformity of salt ball pores in multi-stage porous foam carbonis decreased, and its ligament gradually become thicker with the increase of salt ball size. There are numerous NaCl powder pores and bubble pores inside the salt ball pores and on the ligaments, which are interconnected to form an open-pore structure. The salt balls of different sizes do not significantly affect the density of the hierarchical porous carbon foam, which remain at approximately 0.2 g/cm3. However, the compressive strength decreases with the increase of salt ball size. The maximum compressive strength and specific compressive strength of the foam carbon with the particle size of 14~35 are 4.4 MPa and 22 MPa·cm3/g, respectively.

Key words: carbon foam, templating, salt sphere, mechanical

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