Effect of Ascorbic Acid and Silicium on Photosynthesis, Antioxidant Enzyme Activity, and Fatty Acid Contents in Canola Exposure to Salt Stress

The effects of exogenous ascorbic acid and silicium on leaf fresh weigh, seed yield, photosynthesis, changes of the activities of major antioxidant enzymes, nitrate reductase activity, proline accumulation, chlorophyll content, and fatty acid composition were investigated in salt-stressed canola. A hydroponic pot experiment was conducted based on randomized complete block design, factorial arrangement was used with 16 combinations of salinity stress （0, 100, 200, and 300 mmol L-1 NaC1）, ascorbic acid （0 and 30 mmol L-1）, and silicium （2 and 4 mmol L-1 from potassium silicate） with three replicates. The results showed that salinity significantly decreased leaf area and leaf fresh weight, seed yield, photosynthesis, nitrate reductase activity, chlorophyll content, and seed protein percentage. Conversely, respiration, antioxidant enzymes activity, proline accumulation, and linolenic acid percentage increased due to salt stress. Ascorbic acid application improved photosynthesis and seed yield and mitigated antioxidant enzyme activity. In addition, nitrate reductase activity and chlorophyll a and b were positively affected by ascorbic acid. Regarding silicium application, that was found that leaf area, leaf fresh weight, seed yield and photosynthesis, ascorbate peroxidase activity, nitrate reductase activity, and chlorophyll content increased, while respiration decreased. Furthermore, silicium had not significant effect on antioxidant enzyme activity. In general, ascorbic acid and silicium were involved in the defensive mechanisms against salinity stress and it can be suggested that, ascorbic acid and silicium application had positive effect on canola growth under conditions of salt stress.

Preparation of Composites by Nitro Aluminothermic Processes, over β–SiAlON Matrix in the SiAlON-SiC-Al2O3 System

Goal: The goal of the research is preparation of SiAlON-containing composite through nitro aluminothermic processes, by the methods of reactive sintering and hot compaction. Method: The composite CH-6 was obtained by the method of reactive sintering, with further grinding and hot compression in vacuum furnace at 16000°C, under 30 MPa pressure and 10-12 min standing at the final temperature. Precursor was prepared in a thermostat at 150°C temperature by double compression. Pressure equaled to 20-25 MPa. Results: Physical-technical properties of specimens prepared via hot compaction were investigated. Mechanical strength at compression is 1940 MPa;mechanical strength at bending is 490 MPa;elastic module is 199.5 GPa, HV-11.6 GPa. X-Ray diffraction analysis, electron microscopic and X-ray diffraction Microspectral analysis were used to investigate composite microstructure and phase composition. Composite formulation was defined, the main phases of which were: β-SiAlON, corundum and silicium carbide. Conclusion: Composite CH-6 has been selected from the obtained composites, which is characterized by relatively high physical-technical properties: strength, density and hardness. Materials can be used for making high refractory articles, such as jackets to secure thermocouples, furnace bedding, cutting tools for metal and wood treatment, in rocket spatial technology and others.

石煤烧渣中硅、钒的高效分步提取

针对我国石煤沸腾炉渣钒、硅含量很高的特点,提出一种新的工艺进行硅与钒的分步高效提取。取一定量碳酸钠混匀于石煤烧渣中,经1 400℃高温熔融后进行水淬;得到的水淬渣在100℃用NaOH溶液进行浸出,可制得水玻璃溶液,原料中硅的浸出率达80.5%;产生的碱浸渣用10%硫酸在60℃下进行酸浸,加入一定量氧化剂后,钒的浸出率可达93.1%。该工艺在高效提取钒的同时,实现了石煤烧渣中硅的综合利用,可减少约70%的尾渣排放量。

硅钙钾肥对红富士苹果应用效果研究

山西富邦肥业有限公司生产的富力邦硅钙钾肥,具有促生长、抗病、抗逆,提质、提产、提地力的功效。2009年在陇东地区果园推广应用。结果表明:使用后能使果实品质和单果重显著提高。

硅钙渣的综合利用研究进展

介绍了硅钙渣的概念,特性及在水泥生产、陶粒制备、釉面砖制造、增强沥青混合料、处理有机废水、制备轻质硅酸钙保温材料以及硅灰石等方面的应用,并对硅钙渣的应用前景进行了展望。

稀土元素钼—钒—硅体系的组成分析

本文详细的研究了稀土元素—钼—钒—硅体系中各元素定量测定的诸方面条件,提出了一种灵敏准确、简单易行、易于掌握、便于在具有一般条件的实验室中推广利用的常量分析新方法。

含硅专用配方肥在水稻无公害生产中的应用

针对本地单季晚稻生产过程中长期存在的单纯、过量偏施氮肥,以及土壤中缺乏作物生长发育和影响产量的必需微量元素等问题,根据水稻无公害生产要求和作物需肥规律,研制开发了养分齐全,并与作物和环境相融性好的26％含硅专用配方肥（N=10、P=8、K=6、Si=2）。试验结果表明,含硅专用配方肥示范区稻曲病减少66.7％,产量增加6.50％～9.53％;化肥减少用量30.04％,促进了土壤肥力提高,有机质、碱解氮、全N、全P、全K等营养元素,分别比对照区提高0.36％、16.2mg/kg、0.023％、0.006％、0.343％;pH7.94较对照降低0.11;生产的无公害稻谷中Pb、Cu、Zn等重金属残留量,分别比对照减少29.16％、18.98％、20.00％。工厂化生产的专用配方肥经750hm2水稻田应用,不仅效果显著,而且使用也较方便。

特种车辆主箱体失效分析

某特种车辆在行驶过程中先后两次发生主箱体故障。采用断口宏微观形貌观察、金相检查、硬度测试和力学性能测试进行了综合分析。结果表明:箱体发生断裂的主要原因是箱体材料变质处理工艺控制不当,导致粗大且呈条片状共晶硅的存在,降低了材料的塑性,使铸件脆性较大;其次铝板处的应力集中与断裂耳轴处的结构存在薄弱环节,在一定程度上加快了箱体的过载断裂失效。通过严格控制变质处理工艺,将断裂处耳轴的轴臂方向朝上与竖直方向呈一定夹角,同时将此处固定座加粗,可有效避免该特种车辆发生类似故障。

活性硅复合脱氟剂的试验研究

通过活性硅复合脱氟剂脱氟的试验研究，开发了盐酸法生产饲料级磷酸氢钙流程萃取去渣及一段中和过滤副产白肥的新工艺。

硅钙渣作为水泥原料的研究

本文对硅钙渣作为水泥原料的应用进行了研究.结果表明,在实验室条件下采用90%左右的硅钙渣和10%左右的石灰石两种原料配料,在1350～1400℃下煅烧,可以生产性能合格的625号硅酸盐水泥.硅钙渣主要矿物是r-C_2S,与通常粘土配料的熟料形成热比较,采用硅钙渣配料,约可降低熟料形成热6.3×10~5～8.4×10~5J/kg;与同类型生产方式比较,约可节省能耗20%左右.同时,生产1t熟料可利用400～500kg的粉煤灰.

高钙镁钙耐火材料对无取向硅钢中Al质量分数的影响

以合成高钙镁钙砂为原料,制成CaO质量分数分别为40%、50%和60%的高钙镁钙材料,研究不同CaO质量分数的高钙镁钙材料对无取向硅钢中[Al]质量分数的作用。利用电镜扫描及能谱分析,通过测量了在1600℃反应30 min后镁钙材料反应层中Al和钢水中[Al],分析了不同CaO质量分数的高钙镁钙材料对无取向硅钢中[Al]变化的影响。结果表明,无取向硅钢中的[Al]首先氧化生成Al2O3,然后,与高钙镁钙材料中CaO反应生成CaO.Al2O3,CaO.2Al2O3,CaO.6Al2O3等铝酸盐化合物,以实现对钢液中[Al]的减少作用;随着高钙镁钙材料中的CaO质量分数的提高,对钢液中[Al]的减少作用增强,但当CaO质量分数达到40%时,各种高钙镁钙材料对无取向硅钢中的[Al]的作用基本达到平衡,此时,钢液中[Al]减少率超过96%。说明质量分数达到40%的CaO高钙镁钙材料可用于无铝无取向硅钢的深脱铝处理。

Obtaining of Nanocomposites in SiC-SiAlON and Al₂O₃-SiAlON System by Alumothermal Processes

Composites were obtained in the in SiC-SiAlON and Al2O3-SiAlON system. Physical-chemical processes going on at the obtaining of SiALON within the range of 800°C - 1500°C were studied. Charge compositions and sintering regime were selected. It was proved that X-SiALON was obtained at the sintering of kaolin-aluminum powder at 1500°C, while β-SiALON was formed at the sintering of SiC-Aluminum powder, silicium and Al2O3-aluminum powder, silicium at 1500°C. Corrosion properties of the materials were studied. Investigations were performed by the methods of X-Ray structural and microscopical analysis.

钛硅分子筛催化制备N-氧化吡啶工艺研究

以钛硅分子筛为催化剂,以吡啶、双氧水为原料催化氧化合成 N-氧化吡啶。实验考察催化剂用量、吡啶与双氧水配比、反应温度、反应时间等对反应结果的影响。确定了较佳的工艺操作条件,即在TS-1分子筛催化剂作用下,催化剂与吡啶的质量比为1∶10,反应温度为80℃,吡啶与双氧水的摩尔比为1∶2,双氧水分多次滴加,反应时间为6 h。在此操作条件下,吡啶氧化转化率可达92%以上,N-氧化吡啶选择性可达97%。

氮化硅陶瓷刀具

通过了解陶瓷刀具的优点,优异的性能,掌握陶瓷刀具的合理使用方法及陶瓷刀具的发展趋势。通过对我国陶瓷刀具发展历史的研究和探讨,分析出我国机械加工行业适用的陶瓷刀具的种类和适用范围。

煤基固废协同利用制备硅酸钙板的试验研究

以硅钙渣、粉煤灰、脱硫石膏等为原料制得了托贝莫来石型(5CaO·6SiO2·5H2O)硅酸钙板。研究表明,硅钙渣掺量不高于50%时,有助于硅酸钙板强度的提高,粉煤灰和硅钙渣之间存在相互协同所用,只有二者的配比适当时硅酸钙板的性能才能够达到最佳。

铝、硅、磷鞣剂鞣制皮粉湿热变性前后的固体核磁分析

为了对鞣制胶原湿热变性后鞣剂与胶原分子之间形成的化学键的变化有比较直观的了解,制备了铝、硅、磷鞣剂鞣制的皮粉。采用固态27Al NMR、29Si NMR、31P NMR方法,分别分析了铝、硅、磷鞣剂鞣制的皮粉湿热变性前后Al、Si、P元素的化学位移。结果表明:通过配位键与胶原分子发生作用的铝鞣皮粉,湿热变性后Al的化学位移基本没有变化(略微向高场移动);通过氢键与胶原分子发生作用的硅鞣皮粉,湿热变性后Si的化学位移没有变化;通过共价键与胶原分子发生作用的磷鞣皮粉,湿热变性后P的化学位移明显向高场移动。

ICP-AES法测定硅钢用高纯磷铁中铌钒钛

提出ICP-AES法测定硅钢用高纯磷铁中铌钒钛含量。对样品称样量、溶样方式、溶样酸、光谱干扰、工作曲线制备等进行了优化处理,建立了ICP-AES法测定硅钢用高纯磷铁中铌钒钛含量。此方法应用到实际样品检测,铌钒钛相对标准偏差(RSD,n=11)分别在4.6~9.0%、2.2%~12.4%、4.1~6.3%范围内,回收率分别在99.0%~101.2%、98.3%~102.5%、99.2%~102.8%,方法操作简便,自动化程度高,满足硅钢生产使用要求。

高铝粉煤灰预脱硅碱石灰烧结法提铝硅钙渣脱碱工艺研究

高铝粉煤灰预脱硅碱石灰烧结法提取氧化铝过程中产生一定量的硅钙渣,所产硅钙渣中Ca O、Si O2含量与传统烧结法赤泥相比含量更高,更易于用于水泥行业。本文在对两种提铝残渣进行区别研究的基础上,研究了采用石灰乳对硅钙渣进行脱碱的不同工艺条件,研究表明:采用Ca Of添加量为硅钙渣量的10%,脱碱时间3小时能够将硅钙渣中的氧化钠降低到1.00%以下,从而大大提高硅钙渣在建材制备过程中的添加量。

"十五"期间中国直拉硅单晶炉用石墨材料的市场预测

通过调研,对"十五"期间中国直拉硅单晶炉用石墨材料市场进行了预测。

航天搭载对硅链霉菌菌株生理生化特性的影响

研究航天搭载对硅链霉菌菌株生理生化特性的影响。通过神舟九号飞船搭载硅链霉菌进行实验,对航天诱变菌株的生理生化特性进行分析,为我国微生物肥料行业整体的技术进步奠定基础。结果表明:(1)搭载诱变菌株和CK菌株可以利用10种碳源,也可以利用10种氮源;(2)搭载诱变菌株和CK菌株都可以水解淀粉,但都不产生H2S;(3)在4~45℃条件下,搭载诱变菌株与CK菌株均可以生长,并且生长状况差异不显著;但在55℃条件下,2种菌株均不能生长;(4)搭载诱变菌株在pH=6~10条件下生长良好,而CK菌株在pH为7、8、9条件下生长良好。搭载诱变菌株和CK菌株相比较,在碳源利用、氮源利用、水解淀粉、不产生H2S和温度耐受方面均无明显差别,表现出相似性,但在耐pH方面,与CK菌株相比,搭载诱变菌株生长的pH范围更广,有更好的耐受性,显示了搭载诱变菌株具有更强的抗逆性。