[1] |
王红梅, 屠焰, 张乃锋, 等. 中国农作物秸秆资源量及其“五料化”利用现状[J]. 科技导报, 2017, 35(21): 81 − 88.
WANG Hongmei, TU Yan, ZHANG Naifeng, et al. Chinese crop straw resource and its utilization status [J]. Sci Technol Rev, 2017, 35(21): 81 − 88. |
[2] |
霍丽丽, 赵立欣, 孟海波, 等. 中国农作物秸秆综合利用潜力研究[J]. 农业工程学报, 2019, 35(13): 218 − 224.
HUO Lili, ZHAO Lixin, MENG Haibo, et al. Study on straw multi-use potential in China [J]. Trans Chin Soc Agric Eng, 2019, 35(13): 218 − 224. |
[3] |
DONG Chensong. Review of natural fibre-reinforced hybrid composites [J]. J Reinf Plast Compos, 2018, 37(5): 331 − 348. |
[4] |
杨雪慧, 汤丽娟, 章蓉, 等. 农作物秸秆表面改性处理的研究进展[J]. 南京林业大学学报(自然科学版), 2013, 37(3): 157 − 162.
YANG Xuehui, TANG Lijuan, ZHANG Rong, et al. Review on progress of crop straws surface modification [J]. J Nanjing For Univ Nat Sci Ed, 2013, 37(3): 157 − 162. |
[5] |
BARAMEE S, SIRIATCHARANON A K, KETBOT P, et al. Biological pretreatment of rice straw with cellulase-free xylanolytic enzyme-producing Bacillus firmus K-1: structural modification and biomass digestibility [J]. Renew Energy, 2020, 160: 555 − 563. |
[6] |
MA Yingqun, SHEN Yanqing, LIU Yu. 秸秆处理技术的最新进展: 挑战与解决方案[J]. 中国农机化学报, 2020, 41(11): 152 − 161.
MA Yingqun, SHEN Yanqing, LIU Yu. State of the art of straw treatment technology: challenges and solutions forward [J]. J Chin Agric Mech, 2020, 41(11): 152 − 161. |
[7] |
TIAN Jianghao, POURCHER A M, BIZE A, et al. Impact of wet aerobic pretreatments on cellulose accessibility and bacterial communities in rape straw [J]. Bioresour Technol, 2017, 237: 31 − 38. |
[8] |
QUÉMÉNEUR M, BITTEL M, TRABLY E, et al. Effect of enzyme addition on fermentative hydrogen production from wheat straw [J]. Int J Hydrog Energy, 2012, 37(14): 10639 − 10647. |
[9] |
QU Ping, HUANG Hongying, ZHAO Yongfu, et al. Physicochemical changes in rice straw after composting and its effect on rice-straw-based composites [J/OL]. J Appl Polym Sci, 2017, 134(22): 44878[2021-09-20]. doi: 10.1002/APP. 44878. |
[10] |
LI Jia, ZHANG Xiaolin, NIE Sunjian, et al. Effects of surface treatment on the properties of wheat straw fiber-reinforced rHDPE composites [J/OL]. Mater Res Express, 2019, 6(12): 125103[2021-09-20]. doi: 10.1008/2053-1591/ab4636. |
[11] |
XU Chao, LI Jun, YUAN Qiaoxia, et al. Effects of different fermentation assisted enzyme treatments on the composition, microstructure and physicochemical properties of wheat straw used as a substitute for peat in nursery substrates [J/OL]. Bioresour Technol, 2021, 341: 125815[2021-09-20]. doi: 10.1016/j.biortech.2021.125815. |
[12] |
GHAFFAR S H, FAN Mizi, MCVICAR B. Bioengineering for utilisation and bioconversion of straw biomass into bio-products [J]. Ind Crops Prod, 2015, 77: 262 − 274. |
[13] |
MA Yingqun, SHEN Yanqing, LIU Yu. State of the art of straw treatment technology: challenges and solutions forward [J/OL]. Bioresour Technol, 2020, 313: 123656[2021-09-20]. doi: 10.1016/j.biortech.2020.123656. |
[14] |
王士强, 顾春梅, 赵海红. 木质纤维素生物降解机理及其降解菌筛选方法研究进展[J]. 华北农学报, 2010, 25(增刊 1): 313 − 317.
WANG Shiqiang, GU Chunmei, ZHAO Haihong. The research progress on the mechanisms of lignocellulose biological degrading and the screening method on the degrading bacteria [J]. Acta Agric Boreali-Sin, 2010, 25(suppl 1): 313 − 317. |
[15] |
李思蓓, 解玉红, 罗晶, 等. 秸秆预处理中木质纤维物质含量测定方法的研究进展[J]. 安徽农业科学, 2011, 39(3): 1620 − 1622, 1626.
LI Sibei, XIE Yuhong, LUO Jing, et al. Research progress of content determination method of xylem fiber material in straw pretreatment [J]. J Anhui Agric Sci, 2011, 39(3): 1620 − 1622, 1626. |
[16] |
刘永明, 施建宇, 鹿芹芹, 等. 基于杨氏方程的固体表面能计算研究进展[J]. 材料导报, 2013, 27(11): 123 − 129.
LIU Yongming, SHI Jianyu, LU Qinqin, et al. Research progress on calculation of solid surface tension based on Young’s equation [J]. Mater Rev, 2013, 27(11): 123 − 129. |
[17] |
MATHEWS S L, PAWLAK J, GRUNDEN A M. Bacterial biodegradation and bioconversion of industrial lignocellulosic streams [J]. Appl Microbiol Biotechnol, 2015, 99(7): 2939 − 2954. |
[18] |
付春霞, 付云霞, 邱忠平, 等. 木质素生物降解的研究进展[J]. 浙江农业学报, 2014, 26(4): 1139 − 1144.
FU Chunxia, FU Yunxia, QIU Zhongping, et al. Research progresses of lignin biodegradation [J]. Acta Agric Zhejiang, 2014, 26(4): 1139 − 1144. |
[19] |
张晖. 木质素的降色及其在木质素基化学品中的应用[D]. 广州: 华南理工大学, 2018.
ZHANG Hui. Color Reduction of Ligin and Its Applications in the Ligin based Chemicals [D]. Guangzhou: South China University of Technology, 2018. |
[20] |
BOQUILLON N, ELBEZ G R, SCHÖNFELD U. Properties of wheat straw particleboards bonded with different types of resin [J]. J Wood Sci, 2004, 50(3): 230 − 235. |
[21] |
GUAN Mingjie, YONG Cheng, WANG Lu. Shear strain and microscopic characterization of a bamboo bonding interface with poly (vinyl alcohol) modified phenol-formaldehyde resin [J]. J Appl Polym Sci, 2013, 130(2): 1345 − 1350. |
[22] |
GUAN Mingjie, HUANG Zhiwei, ZENG Dan. Shear strength and microscopic characterization of a bamboo bonding interface with phenol formaldehyde resins modified with larch thanaka and urea [J]. Bioresources, 2016, 11(1): 492 − 502. |
[23] |
ZHAO Hongping, ZHU Jintang, FU Zhongyu, et al. Plasma surface graft of acrylic acid and biodegradation of poly (butylene succinate) films [J]. Thin Solid Films, 2008, 516(16): 5659 − 5663. |
[24] |
WANG Jun, BIAN Jianjun, WANG Gangfeng. Calculation of surface energy density of rough surface by atomic simulations [J]. Appl Surf Sci, 2019, 484: 184 − 188. |
[25] |
王春红, 刘胜凯. 碱处理对竹纤维及竹纤维增强聚丙烯复合材料性能的影响[J]. 复合材料学报, 2015, 32(3): 683 − 690.
WANG Chunhong, LIU Shengkai. Effects of alkali treatment on properties of bamboo fiber and bamboo fiber reinforced polypropylene composite [J]. Acta Mater Compos Sin, 2015, 32(3): 683 − 690. |
[26] |
赵晓非, 杨明全, 章磊, 等. 仿生超疏水表面的制备与应用的研究进展[J]. 化工进展, 2016, 35(9): 2818 − 2829.
ZHAO Xiaofei, YANG Mingquan, ZHANG Lei, et al. Research progress in fabrication and application of bioinspired super-hydrophobic surface [J]. Chem Ind End Prog, 2016, 35(9): 2818 − 2829. |
[27] |
SWOLFS Y, GEBOES Y, GORBATIKH L, et al. The importance of translaminar fracture toughness for the penetration impact behaviour of woven carbon/glass hybrid composites [J]. Compos Part A Appl Sci Manuf, 2017, 103: 1 − 8. |
[28] |
AL-MAHARMA A Y, SENDUR P. Review of the main factors controlling the fracture toughness and impact strength properties of natural composites [J/OL]. Mater Res Express, 2019, 6(2): 022001[2021-09-20]. doi: 10.1088/2053-1591/aaaec28. |