木材硅石改性剂的制备工艺

为了降低木材硅化改性成本促其应用,直接将固态硅石粉高效液态活化,通过正交试验和极差分析优化制备了木材硅石改性剂,测试分析了浸渍改性杨木的性能。结果表明:①反应时间和原料n(SiO2)∶n(NaOH)对活化溶液的pH值、黏度和密度影响不显著,碱料种类和反应温度对活化溶液的黏度、密度、SiO2转化率、固体质量分数和生产成本影响显著,对溶液性能综合影响最大的是反应温度和碱料种类,其次是n(SiO2)∶n(NaOH)和反应时间;②pH值随反应时间、温度和n(SiO2)∶n(NaOH)增大而减小,密度、黏度、固体质量分数、SiO2转化率和模数随反应时间、温度和n(SiO2)∶n(NaOH)增大而增大,KOH活化效果更好但价格较高,综合平衡优化工艺为:反应温度200℃、碱料为NaOH、n(SiO2)∶n(NaOH)=1.715∶1、反应时间4 h;③硅石改性剂能充分渗入杨木,使其吸药量达252%,密度提高81%,抗弯强度提高69.6%,炭化温度减小89℃,残炭率提高41%,改性效果优于硅溶胶。     

Silicon content in rice seedlings to protect rice blast fungus at the nursery stage

To control rice blast effectively at the nursery stage, the absolute SiO₂ content necessary for rice plants to resist blast disease was investigated using various rice cultivars and soils. Nine rice cultivars with different complete resistance genes and different degrees of partial resistance were grown on nursery soils amended with silica gel at different rates to change the SiO₂ content of rice plant. The rice seedlings were then inoculated 28 days after sowing with Pyricularia grisea to estimate their blast resistance. In all rice cultivars, the number of lesions was significantly reduced when SiO₂ content increased in the rice seedling; lesions were reduced to 5%–20% of the number on the seedlings grown in soil without silica gel when the seedling SiO₂ content reached 5%. Additionally, the susceptibility to blast disease of rice seedlings grown on eight soils collected from different districts, with varying amounts of silica gel, was compared. The number of lesions decreased significantly when the SiO₂ content in the seedlings reached 5%. These results suggest that SiO₂ content of at least 5% in the rice plant can control this disease at the nursery stage under any conditions.     

Effects of the Application of Amorphous Silica on Transpiration and Photosynthesis of Soybean Plants Under Varied Soil and Relative Air Humidity Conditions

In epidermal cell walls of soybean leaves treated with amorphous silica accumulation of silica could be detected by means of electron microscopy and electron probe microanalysis. This changed the physical properties of the cell wall and affected the cuticular transpiration and uptake of CO₂: When the soil in which the plants were grown was dry (60% of the field capacity) and relative air humidity was below 50 %, the loss of water through the cuticle was smaller than the loss of CO₂ uptake. This caused a higher grain yield under the conditions of temporarily restricted low air humidity.     

硅气凝胶在木材-纳米无机质复合材料中的应用

气凝胶是一种新型的纳米多孔结构材料,具有可在纳米尺度控制和剪载的连续的三维网络结构,具有许多优异的性能和广阔的应用前案。结合气凝胶的制备过程,阐述了气凝胶的概念、性能、CO2超临界干燥工艺,探讨了硅气凝胶与木材的结合方式,随着二氧化硅气凝胶在木材科学与技术中的应用,必将给无机质复合木材的研究带来新的动力。     

化学预处理对稻草硅化程度的影响及其对瘤胃降解率的改善效果

本试验结合化学分析与电镜技术,探讨了氨化与碱化处理对稻草硅化程度的影响,分析了稻草硅化程度与降解率的相关性。化学分析显示,碱化或氨化处理稻草的总硅含量随氢氧化钠或碳酸氢铵处理剂量的增加而线性下降(P<0.01);可溶性硅含量随碳酸氢铵处理剂量的增加变化不显著(P>0.05),但随氢氧化钠处理剂量增加线性下降(P<0.01);总硅与稻草干物质降解率间存在极显著负相关(r=-0.560,P<0.01)。电镜观察发现,氢氧化钠处理的稻草茎表皮根毛皱缩、乳突和瘤状结构部分溶解,碳酸氢铵处理的稻草茎外表皮层部分脱落;氢氧化钠处理的稻草茎表皮有明显的降解优势,碳酸氢铵处理的稻草茎表皮瘤胃降解72h后仍保持完整的乳突和瘤状结构。上述结果表明,氨化和碱化处理可以在一定程度上降低稻草的硅化程度,借此提高稻草的降解率,但两者降低稻草硅化的程度与方式不同。氨化处理通过使稻草表皮层部分脱落,降低稻草总硅含量,但借此提高稻草降解率的作用较弱;碱化处理可使稻草表皮硅酸盐部分溶解,从而使稻草总硅含量、可溶性硅含量下降,加速稻草降解。     

硅胶负载钨钼杂多酸催化合成聚缩季戊四醇乙二醛

以硅胶负载钨钼杂多酸为催化剂,乙二醛与季戊四醇为原料,合成了聚缩季戊四醇乙二醛,系统地研究了乙二醛与季戊四醇的摩尔比、催化剂用量、反应时间诸因素对收率的影响．结果表明：在n（醛）：n（季戊四醇）=1：1．8,催化剂的用量占反应物料总质量的1．5％,反应时间为2．5h条件下,聚缩季戊四醇乙二醛平均收率在67％．     

Comprehensive utilization of the hydrolyzed productions from rice hull

The study based on pretreatment, hydrolyzation and separation processes with the raw material rice hull, provides a comprehensive utilization of the hydrolyzed productions, such as glucose (C₆H₁₂O₆) from cellulose, silica (SiO₂), and byproduct crystalline sodium sulfate (Na₂SO₄·10H₂O). The optimum hydrolysis conditions are as follows: the concentration of H₂SO₄ is 72% (wt.%), the temperature is 50 °C, the ratio of H₂SO₄ solution volume (mL) to the rice hull mass (g) is 10:1 and the time is 5 min, the glucose yield rate reaches 45.6% (wt.%). The concentration of glucose solution could be 0.1 g/mL after neutralization measured by ultraviolet spectrophotometer (UV-VIS). Silica powder was below 50 nm characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM). The main byproduct crystalline sodium sulfate was featured by XRD and photographs.     

原位反应法制备NR/二氧化硅胶膜及其性能分析

研究原位生成对NR胶膜性能的影响。通过对力学性能、热老化性能、红外分析及电镜照片分析,得出原位反应可以在NR分子链中接枝二氧化硅粒子,并且在添加量为1.0%,撕裂强度为87.3721MPa,提高了264.2%。     

Photochromic fabrics with improved durability and photochromic performance

Previously, we have reported a method for producing photochromic wool fabric by applying a thin layer of hybrid silica-photochromic dye onto the wool surface. While the photochromic coating showed a very fast optical response and had little influence on the fabric handle, its durability was poor. In this study, the durability of the photochromic coating layer was improved by introducing epoxy groups into the silica matrix via co-hydrolysis and co-condensation of an alkyl trialkoxysilane compound (ATAS) and 3-glycidoxypropyltrimethoxysilane (GPTMS). The presence of epoxy groups in the silica enhanced both washing and abrasion durability or fastness. In addition, the optical response speed was slightly increased as well. Effects of the type of alkyl silane and the GPTMS/alkyl silane ratio on the coating durability, fabric handle and optical response were examined.     

Aspects of the chemical and microscopic characteristics of plant ashes found in archaeological soils

Ash from plants occurs in archaeological soils all over the world. It is particularly significant in cave deposits but is also found on open air sites where dissolution has been discouraged by aridity, deep burial or calcareous surrounding sediments. This paper describes the main microscopic characteristics of ash, as well as providing details and illustrations of their origin from plant mineral and organomineral compounds. Chemical summaries are presented which reflect the major trends in phytomineralogy and highlight some additional groupings running through plant physiology. Emphasis is placed on the importance of understanding the complete range of transformations acting on ash as a result of heating and cooling, followed by weathering and dissolution. Finally, some future directions for ash research are suggested, both from within the central topic of plant ashes and extending to other types of ash.