| 光谱学与光谱分析 |
|
|
|
|
|
| FTIR Spectra Study on the Film of Polyurethane Coated Urea Controlled-Release Fertilizer |
| WU Shu1, LI Qing-shan1*, RU Tie-jun2, WANG Li-min1, XING Guang-zhong1, WANG Jin-ming2 |
1. State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao 066004, China
2. Sino-Arab Chemical Fertilizer Co., Ltd, (SACF), Qinhuangdao 066003, China |
|
|
|
|
Abstract The polyurethane films were prepared to wrap the urea in order to achieve a desirable release rate by mixing isocyanate, polyols and wax. The effect of wax, urea and isocyanate on the structure and properties of the films was investigated by FTIR. The structural changes were monitored as the polyurethane films together with the wrapped urea were immersed into ammonia water for 28 days, which is used to model soil conditions. The FTIR results showed that the width and intensity of the NH-free band increased remarkably with time, and all kinds of carbonly bands shifted to high wavenumber and their intensity increased obviously. The results suggest that the structure of the polyurethane films was destroyed more heavily in soil than in water, and this explains the relatively fast release rate of urea in soil. It was observed that the increase in the chemical crosslinking density in the polyurethane films can effectively decrease the release rate of the urea nitrogen in soil.
|
|
Received: 2010-04-29
Accepted: 2010-07-18
|
|
|
|
Corresponding Authors:
LI Qing-shan
E-mail: qsli@ysu.edu.cn
|
|
[1] SU Xiao-wan, DU Jian-jun, JIA Zhen-yu, et al(粟晓万,杜建军,贾振宇,等). Chinese Agricultural Science Bulletin(中国农学通报), 2007, 23(12): 234.
[2] Yan Dong, Wang Zhengyin. Agricultural Sciences in China, 2006, 5(5): 960.
[3] Tang Shuanhu, Yang Shaohai, Chen Jiansheng, et al. Agricultural Sciences in China, 2007, 6(5): 586.
[4] Wang Yong, Li Jian, Chen Xiaoyao. Journal of Wuhan University of Technolotgy-Mater, 2005, 20(2): 12.
[5] NI Xiao-xue, LI Xiao-guang, ZHANG San-ping, et al. Journal of Wuhan University of Technolotgy-Mater, 2009, 24(6): 892.
[6] LI Ming-hua, XIA Ru, ZHANG Yu-chuan. Journal of Wuhan University of Technolotgy-Mater, 2009, 24(5): 805.
[7] GE Jin-jie, SHI Xing-hai, WU Rui, et al(戈进杰,施兴海,吴 睿,等). Acta Chimica Sinica(化学学报), 2001, 59(11): 2018.
[8] XU Yi-fei, YANG Jing-quan, LI Shu-cai, et al(徐一飞,杨荆泉,李树材,等). China Plastics Industry(塑料工业), 2008, 36(11): 58.
[9] Ni Boli, Liu Mingzhu, Lü Shaoyu. Chemical Engineering Journal, 2009, 155(3): 892.
[10] MIAO Yi, SHI Tie-jun, HANG Guo-pei, et al(苗 毅,史铁钧,杭国培,等). Chemical Propellants & Polymeric Materials(化学推进剂与高分子材料), 2008, 6(2): 40.
[11] ZHAO Pei-zhong, WANG Yuan-sheng, ZHU Jin-hua, et al(赵培仲,王源升,朱金华,等). Polymer Materials Science and Engineering(高分子材料科学与工程), 2008, 24(1): 71.
[12] ZHAO Pei-zhong, WANG Yuan-sheng, ZHU Jin-hua, et al(赵培仲,王源升,朱金华,等). Polymer Materials Science and Engineering(高分子材料科学与工程), 2008, 24(4): 89.
[13] LI Zai-feng, XIN Hao-bo, XING Zheng, et al(李再峰,辛浩波,邢 政,等). Polymer Materials Science and Engineering(高分子材料科学与工程), 1999, 15(4): 84.
[14] LUO Ning, WANG De-ning, YING Sheng-kang(罗 宁,王得宁,应圣康). Polymer Bulletin(高分子通报), 1998, (3): 37.
|
| [1] |
WANG Cai-ling1,ZHANG Jing1,WANG Hong-wei2*, SONG Xiao-nan1, JI Tong3. A Hyperspectral Image Classification Model Based on Band Clustering and Multi-Scale Structure Feature Fusion[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2024, 44(01): 258-265. |
| [2] |
TIAN Fu-chao1, CHEN Lei2*, PEI Huan2, BAI Jie-qi1, ZENG Wen2. Study of Factors Influencing the Length of Argon Plasma Jets at
Atmospheric Pressure With Needle Ring Electrodes[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(12): 3682-3689. |
| [3] |
WANG Ling-juan, OU Quan-hong, YAN Hao, TANG Jun-qi*. Preparation and Catalytic Properties of Gold Nanoflowers[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(12): 3747-3752. |
| [4] |
WAN Mei, ZHANG Jia-le, FANG Ji-yuan, LIU Jian-jun, HONG Zhi, DU Yong*. Terahertz Spectroscopy and DFT Calculations of Isonicotinamide-Glutaric Acid-Pyrazinamide Ternary Cocrystal[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(12): 3781-3787. |
| [5] |
ZHENG Ni-na1, 2*, XIE Pin-hua1, QIN Min1, DUAN Jun1. Research on the Influence of Lamp Structure of the Combined LED Broadband Light Source on Differential Optical Absorption Spectrum
Retrieval and Its Removing Method[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(11): 3339-3346. |
| [6] |
WAN Huang-xu1, 2, LIU Ji-qiang1*, HAN Xi-qiu1, 2, LIANG Jin-long2, ZHOU Ya-dong1, FAN Wei-jia1, WANG Ye-jian1, QIU Zhong-yan1, MENG Fan-wei3. Ultrastructure and Mineral Composition of Bathymodiolus Shell From Wocan-1 Hydrothermal Vent, Northwest Indian Ocean[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(11): 3497-3503. |
| [7] |
GUO Jing-fang, LIU Li-li*, CHENG Wei-wei, XU Bao-cheng, ZHANG Xiao-dan, YU Ying. Effect of Interaction Between Catechin and Glycosylated Porcine
Hemoglobin on Its Structural and Functional Properties[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(11): 3615-3621. |
| [8] |
ZHANG Yan-dong1, WU Xiao-jing1*, LI Zi-xuan1, CHENG Long-jiu2. Two-Dimensional Infrared Spectroscopic Study of Choline
Chloride/Glycerin Solution Disturbed by Temperature[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(10): 3047-3051. |
| [9] |
CHENG Hong1, YAN Ding-ce1*, WU Li-qing2, XU Jun3. Spectral Magnitude Uncertainty in Measurement of Protein Circular
Dichroism Spectra—An Empirical Study on Cytochrome C[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(10): 3105-3110. |
| [10] |
WANG Peng1, GAO Yong-bao1*, KOU Shao-lei1, MEN Qian-ni1, ZHANG Min1, HE Tao1, YAO Wei2, GAO Rui1, GUO Wen-di1, LIU Chang-rui1. Multi-Objective Optimization of AAS Conditions for Determination of Gold Element Based on Gray Correlation Degree-RSM Model[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(10): 3117-3124. |
| [11] |
ZHANG Peng1, 3, YANG Yi-fan1, WANG Hui1, TU Zong-cai1, 2, SHA Xiao-mei2, HU Yue-ming1*. A Review of Structural Characterization and Detection Methods of Glycated Proteins in Food Systems[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(09): 2667-2673. |
| [12] |
TIAN Ze-qi1, WANG Zhi-yong1, YAO Jian-guo1, GUO Xu1, LI Hong-dou1, GUO Wen-mu1, SHI Zhi-xiang2, ZHAO Cun-liang1, LIU Bang-jun1*. Quantitative FTIR Characterization of Chemical Structures of Highly Metamorphic Coals in a Magma Contact Zone[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(09): 2747-2754. |
| [13] |
LIU Guo-peng1, YOU Jing-lin1*, WANG Jian1, GONG Xiao-ye1, ZHAO Yu-fan1, ZHANG Qing-li2, WAN Song-ming2. Application of Aerodynamic Levitator Laser Heating Technique: Microstructures of MgTi2O5 Crystal and Melt by in-situ Superhigh Temperature Raman Spectroscopy[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(08): 2507-2513. |
| [14] |
WANG Jie1, 2, 3, LIU Wen-qing1, 2, 4, ZHANG Tian-shu1, XIA Jian-dong5, DENG Wei5, HU Wen-jie5. Collaborative Observation of Vertical Structures of Ozone and Aerosol in a Dust Episode Based on Lidar[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(07): 2258-2265. |
| [15] |
HU Shuang1, LIU Cui-mei2*, XU Lin3, JIA Wei2, HUA Zhen-dong2. Rapid Qualitative Analysis of Synthetic Cathinones by Raman
Spectroscopy[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(06): 1821-1828. |
|
|
|
|
