straw fiber
英 [strɔː faɪbə]
美 [strɔː ˈfaɪbər]
网络 谷草纤维; 草纤维; 稻草纤维
双语例句
- Study on the Effect of Straw Fiber on Properties of PBS Composite
秸秆纤维对PBS复合材料的性能影响研究 - Research and Application of One New Style Hot Work Die Steel for Precision Forging Die to Valve Develop New-type Straw Fiber Walling Material with Local Supplies
新型气门精锻热作模具材料的开发与应用利用地方资源,开发设计建筑节能新型墙体材料 - Exploratory research of a comprehensive utilization system of renewable sources of energy in the architecture Develop New-type Straw Fiber Walling Material with Local Supplies
一种建筑新能源综合利用系统的探索研究利用地方资源,开发设计建筑节能新型墙体材料 - Effect of Lipase Pretreatment on Surface Properties of Wheat Straw Fiber
脂肪酶处理对麦秸纤维表面性能的影响 - Experimental study on the thermal insulation performance of straw fiber reinforced concrete block wall
混凝土秸秆砌块墙的保温性能试验研究 - Develop New-type Straw Fiber Walling Material with Local Supplies
利用地方资源,开发设计建筑节能新型墙体材料 - Research in High Temperature Performance and Fire Temperature Field of Straw Fiber Composite Material
秸秆纤维墙体结构高温性能和火灾温度场研究 - Preparation of Environment Material Made from Straw Fiber
利用秸秆纤维制备环境材料的研究进展 - Experimental Study on the Performance of Chopper for Straw Fiber Artificial Board
秸秆人造板切碎机性能的试验研究 - Lignin distribution in wheat straw fiber as determined by SEM-EDXA technique
用SEM-EDXA技术测定麦草纤维细胞木素分布 - ^ Study on the Role of Sulfuric Acid in the Catalytical Hydrolysis of Black Liquor from Straw Fiber Pulping Process
硫酸对草浆造纸黑液催化作用的研究 - Developmental Summary on Development Straw Fiber Composites
秸秆纤维复合材料的发展概况 - A study on curing dynamics of UF resin for wheat straw fiber board has been carried outby DSC analysis.
采用DSC分析技术,研究了麦秆纤维板用脲醛树脂的固化动力学。 - The structural characteristics of lignin of straw fiber resulting in the difference between the pulping process of straw fiber and that of timber;
草类纤维木质素结构的特性,造成草类纤维的制浆过程与木材制浆的差异; - A analysis was focused on the chemical composition, morphology and surface characterization of both wheat straw fiber and wood fiber.
本研究从化学组分、纤维形态和表面性质三方面分析比较了麦秆纤维与木材纤维。 - Study on PE/ Straw Fiber composite
聚乙烯/稻草纤维复合材料的研究 - The results showed the polyacrylate treatment could improve the dispersion of straw fiber in the interaction between straw fiber and the base material, and the introduction of MAPE could improve the interaction between straw fiber and the base material and the properties of the composite.
研究结果表明:采用聚丙烯酸酯处理剂可以有效地提高稻草纤维在树脂基体中的分散状况;在复合材料体系中引入MAPE可以提高稻草纤维和聚合物基体之间的相互作用,提高材料的综合性能。 - Effect of straw fiber, polyacrylamide and super absorbent polymer eco-engineering on rock slope protection
秸秆纤维、聚丙烯酰胺及高吸水树脂在岩石边坡植被护坡中的效应 - Study of Chemical Oxygenation on the Surface of Wheat Straw Fiber
麦草纤维表面化学氧化处理的研究 - Influence of Processing Factors on Shaping of Straw Fiber
秸秆纤维气流成网过程中工艺参数的影响 - The theory and practice of the reasonable use of straw fiber for paper making
合理利用禾草类纤维造纸的理论与实践 - Development& Application of Straw Fiber
秸杆纤维的开发应用 - Study on Properties of Straw Fiber Felt for Planting
秸秆纤维基植物栽培毡的性能研究 - The effect of surface treatment of natural fiber on the mechanical properties of composite material were discussed through the study of the manufacturing process of cushion composite material made from natural fiber such as straw fiber.
通过实验研究了以稻草为主要原料的自然纤维复合缓冲材料制作过程中,自然纤维表面处理对复合材料性能的影响。 - Analysis and comparison of rice, wheat straw fiber morphology and properties were undertaken before and after pretreatments.
分析比较了稻、麦秸秆纤维预处理前后表面化学成分、表面形貌、吸湿性及浸润性能的变化情况。 - Straw fiber sizes, pretreatments and moisture resistance agents, plasticizers, adhesives content showed greater impact on performance of composites.
秸秆纤维尺寸、预处理、阻湿剂含量、增塑剂含量及胶粘剂含量均对复合材料各项性能的影响差异较大。 - Plant fiber-cement composite is a kind of compound material that is made after a series of procedure. Cement is taken as the substrate, straw fiber is taken as reinforcement, and chemical agent and water is added in the composites.
植物纤维-水泥复合材料是以硅酸盐水泥为基材,植物纤维做增强材,加入化学助剂及水经复合工艺构成的复合材料。 - Acetic acid treatment could deeply change the surface properties of straw fiber, and provide a good bonding environment to enhance the mechanical properties of fibreboard. The optimum condition of acetic acid treatment was resin content 4%, temperature 80 ℃ and time 20 min.
乙酸处理能显著改变麦秆纤维的表面性质,为脲醛树脂与纤维提供良好的胶合环境,从而提高纤维板力学性能;乙酸处理的最佳条件为投加量4%,温度80℃,时间20min。 - The above results will be of great theoretical and practical reference value in the industry application of wheat straw fiber/ plastic composites.
以上这些研究结果对麦秸纤维/废旧塑料复合材料的产业化应用将具有重要的理论与实用参考价值。