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介绍了双乙烯酮的性质和制备方法,重点介绍了双乙烯酮及其衍生产品在医药、农药、染料、有机合成、食品添加剂和高分子工业等方面的应用 相似文献
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介绍了双乙烯酮的性质和制备方法,重点介绍了双乙烯酮及其衍生产品在医药、农药、染料、有机合成、食品添加剂和高分子工业等方面的应用。 相似文献
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双乙烯酮及其衍生产品 总被引:3,自引:0,他引:3
虞达宇 《化学工业与工程技术》1996,17(1):51-55
介绍了双乙烯酮的性质、制备方法及其衍生产品用途,并分析了市场前景。重点叙述了双乙烯酮在有机合成、农药、合成染料及食品和饲料添加剂等方面的开发应用。 相似文献
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双乙烯酮的合成与应用 总被引:3,自引:1,他引:2
介绍了双乙烯酮的合成方法:乙酸高温裂解法、乙炔氧化法、丙酮热解法和乙酸酐热解法。阐述了双乙烯酮在医药、农药、染料、饲料和食品添加剂方面的应用。 相似文献
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双乙烯酮在农药领域的应用 总被引:4,自引:1,他引:4
双乙烯酮的高度不饱和性使其具有一些特殊的物理性能和较高的反应活性,在农药领域的应用极广。介绍了由双乙烯酮直接合成或由其衍生物合成的农药品种。 相似文献
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相比已经完善丰富的开采和勘探技术,油气的运输以及储存却仍然存在不足之处。我国对能源安全提出更加严格要求的同时,对区域经济的发展规划也有足够重视。因此,保障油气管道的安全则成为了我国能源安全战略的重中之重。在阐释油气管道现阶段在储运安全保障技术发展状况的基础上,分析了现存的问题及解决问题的手段,并指出未来可能使用的目标策略,为今后研究者提供一定程度上的借鉴经验。 相似文献
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建设创新型国家是我们中华民族的历史责任。“自主创新、重点突破、支撑发展、引领未来”的16字方针应当成为我们未来创新活动的指南。建设创新型国家把自主创新放在首位,并提出了引领未来的高标准要求。钢铁科技创新必须突出重点,抓住创新成果产业化这个关键,支撑起行业和国民经济的发展。 相似文献
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Solid solutions of diphosphates of zinc and copper and of zinc and cobalt were synthesized from mixtures of pure diphosphates at temperatures up to 1000°C. Their X-ray diffractometry patterns varied continuously from one end member to the other. Solid solutions of orthophosphates of composition Zn3−x Cox(PO4 )2, with x = 0.4–1.6, were formed at temperatures up to 950°C; all exhibited the structure of γ-Zn3 (PO4 )2. Solid solutions of orthophosphates of composition Zn3−x Cux (PO4 )2 exhibited more-complex behavior. At 1000°C and copper contents of 20–80 mol%, a phase that is related to Cu3 (PO4 )2, termed here the "ε-phase," predominated. At 850°–950°C and in the region from 20 mol% to ∼33 mol% of copper, the solid solutions (the "η-phase") adopted the structure of graftonite. At 800°–900°C and 10–15 mol% of copper, the solid solutions exhibited a new structure (the "δ-phase"), which we found to be related to the mineral sarcopside. At temperatures 950°C, the solutions that contained 5–15 mol% of copper (the "β-phase") had the structure of β-Zn3 (PO4 )2, whereas at 800°–850°C, solutions with 5 mol% of copper (the "-phase") exhibited the structure of γ-Zn3 (PO4 )2. Attempts to synthesize Cu+ ZnPO4 and Cu+ Cu2+ Zn3 (PO4 )3 were unsuccessful. 相似文献
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膜的污染和劣化及其防治对策 总被引:25,自引:0,他引:25
较为系统地介绍了膜污染和劣化的定义和特点,因膜污染和劣化而造成的膜性能变化,以及如何预防、减少或清除膜污染和劣化的一些通用方法。 相似文献
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填料-橡胶的化学和物理作用及补强ⅡN330,SiO2,n-SiO2和n-SiO2/KH-846与NR 总被引:1,自引:0,他引:1
研究了填料-橡胶的相互作用。发现N330-NR间的相互作用。n-SiO2(粒径:15nm)/KH-846-NR间的相互作用,都是化学作用占优势(>80%),化学作用对补强的贡献率都大于90%;无偶联剂KH-846时,n-SiO2和SiO2(粒径:15.8nm)与NR都无化学作用,只有物理交联,由于隔离作用,都降低硫化体系与橡胶相互作用的化学交联密度,但n-SiO2的物理交联密度是SiO2的2.6倍,对补强的贡献是SiO2的1.9倍,也是n-SiO2/KH-846体系的61%。 相似文献
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文章采用离子色谱法/电导检测器,测定了蔬菜水果样品中的硝酸盐和亚硝酸的含量。实验选取并优化样品前处理方法,获得无色透明的溶液后,经0.45μm过滤器过滤后得到待测液,最后自动进样,离子色谱法进行样品测定,以10 mmol/L KOH溶液为淋洗液,相对标准偏差:NO3-为0.38%,NO2-为0.54%;回收率:NO3-为98.8%~99.7%,NO2-为98.6%~99.9%。本方法操作简便快速,且具有仪器稳定性好、测定结果准确可靠的特点。在被测定蔬菜水果中,硝酸盐和亚硝酸盐含量都在较低浓度水平,NO3-:16.8~21.9 mg/kg,NO2-:0.0887~0.164 mg/kg。最后讨论了几种蔬菜水果样品储藏过程中硝酸盐与亚硝酸盐的含量变化情况。 相似文献
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绿色火炸药及相关技术的发展与应用 总被引:12,自引:1,他引:11
综述了绿色火炸药及其生产工艺、销毁以及回收利用方面具有“绿色”特征的改进和应用研究成果。绿色火炸药包括洁净固体推进剂、无铅双基推进剂、TPE发射药、无毒发射药、无铅点火药和起爆药。绿色制造技术包括N2O5作硝化剂的含能硝基化合物化学合成,过硝酸盐作硝化剂、微生物作催化剂的生物合成技术,连续化柔性制造技术,基于双螺杆混合成型火炸药生产技术,火炸药生产中挥发性污染物的安全消除技术和纳米复合含能材料的Sol-Gel制备技术。绿色销毁和回收利用技术包括销毁产品的熔盐氧化技术、摧毁含含能化合物废水的光催化技术以及火炸药的回收再利用(R^3)技术。评述了上述火炸药及相关技术的最新状况和发展方向,附参考文献25篇。 相似文献
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《Ceramics International》2016,42(13):14313-14325
Bioactive glasses and glassceramics have been used in both bone repair and tissue engineering applications. An important feature of bioactive glasses and glassceramics, which enables them to be used for desired application, is their biological activity. This activity is manifested by the ability of these materials to form a stable bond with bone tissue (bioactivity) and, in some cases, their ability to promote/initiate osteogenesis (osteoinductivity). A stable material-bone bonding (i.e. bioactivity) results from specific material surface reactions leading to hydroxyapatite (HAp) formation on the material surface. Bioactivity of materials is often evaluated in vitro and the ability of materials to form HAp-like surface layer is usually studied after immersion/incubation of materials in simulated body fluid (SBF). Biological activity of materials can be also defined as their ability to induce specific cell responses leading to faster regeneration of bone tissue. It may be manifested by materials supporting bone cell attachment, proliferation and differentiation (biocompability/osteconductivity), and/or by materials inducing/promoting the expression of multiple bone-related genes that drive osteogenesis (osteoinductivity). Osteoinductivity is often verified in vivo by the materials capability to form bone at etopic (i.e. extraskeletal) sites. However, a lot of in vitro call-based experiments are now offered to determine osteoinductive properties of biomaterials. This review focuses on the silica-based glasses and glass-ceramics, in particular, the sol-gel derived ones, and summarizes their bioactivity and osteoinductivity as major determinants of their biological activity. We highlight the chemistry of bioglasses and glassceramics that affects not only the formation of a stable implant/bone bonding by HAp layer, but also drives the cell response in vitro and in vivo. 相似文献
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油气田的开发建设一直是我国石油行业中的重中之重。随着我国石油行业的快速发展,各项领域对石油与天然气的需求也越来越大。但是,随着石油与天然气的大力开采,对环境产生了不良的影响。对此,通过对油气田的开发、油气田开发建设对环境的影响以及环境的保护对策等方面进行了简略的说明,希望对我国以后油气田开发建设有一定的指导作用。 相似文献