1)Tri-n-butylamine三正丁胺
2)Tributylamine三正丁基胺
3)nBPT正丁基硫代磷酰三胺
1.Functional Groups of Soil Urease Inhibitor nBPT;土壤脲酶抑制剂正丁基硫代磷酰三胺的作用基团研究
4)N-(n-Butyl)thiophosphoric triamide正丁基硫代磷酸三胺
5)n-butylamine正丁胺
1.Synergistic inhibition between n-butylamine and sodium nitrate for aluminum in hydrochloric acid;正丁胺和硝酸钠对铝的缓蚀协同效应
2.Synthesis of N,N-dimethyl-n-butylamine with tubular reactor管式反应器合成N,N-二甲基正丁胺
3.A kind of aqueous polyurethane finishing agents were synthesized with isophorone diisocyanate(IPDI),polytetrahydrofuran(PTMG),dimethylolpropanoic acid(DMPA) as monomers and n-butylamine,ethylene glycol and ethylenediamine as chain-extension agents.采用异佛尔酮二异氰酸酯(IPDI)、二羟甲基丙酸(DMPA)、聚四氢呋喃(PTMG)为原料制备聚氨酯预聚体,分别以乙二醇(EG)、乙二胺(EN)和正丁胺(n-butylamine)为扩链剂制备了水性聚氨酯皮革涂饰剂,研究了该涂饰剂所成膜的力学性能、断裂伸长率和吸水性。
英文短句/例句
1.Synthesis of N,N-dimethyl-n-butylamine with tubular reactor管式反应器合成N,N-二甲基正丁胺
2.Effect of Butylamine Roxatidine Acetas on gastric juice excretion in rats with gastric ulcer正丁胺基罗沙替丁乙酸酯对胃溃疡大鼠胃液分泌的影响
3.Influence of butylamine roxatidine acetate on seroactive fractions in rats with gastric ulcer正丁胺基罗沙替丁乙酸脂对胃溃疡大鼠胃黏膜活性因子的影响
4.Preparation of N,N-Dibutylformylamide--Hydrogenation of Carbon Dioxide in Presence of DibutylamineN,N-二丁基甲酰胺的制备——二正丁胺存在下二氧化碳催化氢化反应的研究
5.The Mechanism of Affecting Ulcer Healing of Butylamine Roxatidine Acetate in Gastric Ulcer Rats Indued by Acetic Acid正丁胺基罗沙替丁乙酸酯影响乙酸诱发胃溃疡大鼠溃疡愈合作用机制研究
6.Effect of Butylamine Roxatidine Acetas on Experimental Gastric Ulcer and Its Acute Toxicity正丁胺罗沙替丁乙酸酯对动物实验性胃溃疡及急性毒性实验的影响
7.Synthesis of n-butyl lactate by polyaniline doped with p-toluene sulfonic acid as catalyst对甲苯磺酸掺杂聚苯胺催化合成乳酸正丁酯
8.Study on the Synthesis of: Methyl 4-butyramido-3-methyl-5-nitrobenzoate;3-甲基-4-正丁酰胺基-5-硝基苯甲酸甲酯的合成工艺研究
9.In this paper tungstosilicic triethanolamine salt and tungstophoric triethanolamine salt were prepared and used as catalysts in the synthesis of n-butyl lactate, The synthetic conditions with tungstosilicic triethanolamine salt as catalyst were also examined.合成了硅钨三乙醇胺盐和磷钨酸三乙醇胺盐,并以它们为催化剂,合成了乳酸正丁酯。
10.Application of Poly(acrylamide-co-2-acrylamido-2-methylpropane sulfonicacid) Hydrogel in Synthesis of N-butyacetate聚丙烯酰胺-co-2-丙烯酰胺基-2-甲基丙磺酸凝胶催化合成乙酸正丁酯
11.hexadecyl tributyl ammonium bromide十六烷基三丁基溴化胺
12.Imipenem and Cilastatin Sodium亚胺培南西司他丁钠
13.butylated melamine resin丁醇改性三聚氰胺树脂
14.We have urgent need for salbutamol sulphate and base, kindly advise your offer.我们急需硫酸沙丁胺醇、丁胺醇,望您能提供。
15.Resolution of 2-substituted 1-tert-butyl succinates by chiral α-phenethylamineα-苯乙胺拆分2-取代丁二酸1-叔丁酯
16.A pour point depressant (PPD) for improving the cold fluidity of diesel oils was studied.对柴油降凝剂进行了研究,降凝剂为苯乙烯、顺丁烯二酸酐及正十八胺三元共聚物。
17.The simplest explanation is that an extended stretch of polyglutamines destroys the huntingtin protein's ability to carry out its usual job in the brain.最简单的解释是,加长的多麸醯胺酸区段破坏了杭丁顿蛋白在脑中的正常功能。
18.GLUTATHIONE IN PHILOSAMIA CYNTHIA AND BOMBYX MORI AND ITS INHIBITION BY BSO蓖麻蚕和家蚕中的谷胱甘肽及正丁基高半胱氨酸亚砜亚胺对它的抑制作用
相关短句/例句
Tributylamine三正丁基胺
3)nBPT正丁基硫代磷酰三胺
1.Functional Groups of Soil Urease Inhibitor nBPT;土壤脲酶抑制剂正丁基硫代磷酰三胺的作用基团研究
4)N-(n-Butyl)thiophosphoric triamide正丁基硫代磷酸三胺
5)n-butylamine正丁胺
1.Synergistic inhibition between n-butylamine and sodium nitrate for aluminum in hydrochloric acid;正丁胺和硝酸钠对铝的缓蚀协同效应
2.Synthesis of N,N-dimethyl-n-butylamine with tubular reactor管式反应器合成N,N-二甲基正丁胺
3.A kind of aqueous polyurethane finishing agents were synthesized with isophorone diisocyanate(IPDI),polytetrahydrofuran(PTMG),dimethylolpropanoic acid(DMPA) as monomers and n-butylamine,ethylene glycol and ethylenediamine as chain-extension agents.采用异佛尔酮二异氰酸酯(IPDI)、二羟甲基丙酸(DMPA)、聚四氢呋喃(PTMG)为原料制备聚氨酯预聚体,分别以乙二醇(EG)、乙二胺(EN)和正丁胺(n-butylamine)为扩链剂制备了水性聚氨酯皮革涂饰剂,研究了该涂饰剂所成膜的力学性能、断裂伸长率和吸水性。
6)di-n-Butylamine二正丁胺
1.Determination of isocyanate group in polyurethane by "di-n-Butylamine-Acetone" method;丙酮-二正丁胺滴定法测定聚氨酯中的异氰酸酯基
延伸阅读
三正丁胺国标编号 82510 CAS号 102-82-9 分子式 C12H27N;CH3(CH2)3N(CH2CH2CH2CH3)2分子量 185.35无色液体,有类似氨的气味;蒸汽压0.32kPa/55℃;闪点86℃;熔点-70℃;沸点216.5℃;溶解性:不溶于水,溶于醇、醚;密度:相对密度(水=1)0.78;稳定性:稳定;危险标记 20(碱性腐蚀品);主要用途:用作溶剂、中间体、杀虫剂、乳化剂等 2.对环境的影响:一、健康危害侵入途径:吸入、食入、经皮吸收。健康危害:本品对粘膜、上呼吸道、眼和皮肤有强烈的刺激性。吸入后,可因喉及支气管的痉挛、炎症、水肿,化学性肺炎或肺水肿而致死。接触后出现烧灼感、咳嗽、喘息、喉炎、气短、头痛、恶心和呕吐。可致灼伤。二、毒理学资料及环境行为急性毒性:LD50540mg/kg(大鼠经口);250mg/kg(兔经皮)亚急性和慢性毒性:大鼠暴露于910mg/m3,6小时/次,19次,动物表现不安,动作不直辖市,震颤及鼻刺激症状。体重未见增加,脏器组织学无异常。220mg/m3仅有轻嗜睡状态。危险特性:其蒸气与空气形成爆炸性混合物,遇明火、高热能引起燃烧爆炸。与强氧化剂可发生反应。若遇高热,容器内压增大,有开裂和爆炸的危险。燃烧(分解)产物:一氧化碳、二氧化碳、氧化氮。3.现场应急监测方法: 4.实验室监测方法: 5.环境标准:前苏联(1975)车间卫生标准220mg/m36.应急处理处置方法:一、泄漏应急处理疏散泄漏污染区人员至安全区,禁止无关人员进入污染区,切断火源。建议应急处理人员戴自给式呼吸器,穿化学防护服。不要直接接触泄漏物,在确保安全情况下堵漏。用沙土、蛭石或其它惰性材料吸收,然后收集运至废物处理场所处置。也可以用大量水冲洗,经稀释的洗水放入废水系统。如大量泄漏,利用围堤收容,然后收集、转移、回收或无害处理后废弃。二、防护措施呼吸系统防护:可能接触其蒸气时,佩带防毒面具或供气式头盔。紧急事态抢救或逃生时,建议佩带自给式呼吸器。眼睛防护:戴化学安全防护眼镜。防护服:穿工作服(防腐材料制作)。手防护:戴橡皮手套。其它:工作现场禁止吸烟、进食和饮水。工作后,淋浴更衣。进行就业前和定期的体检。三、急救措施皮肤接触:脱去污染的衣着,用肥皂水及清水彻底冲洗。眼睛接触:立即提起眼睑,用流动清水或生理盐水冲洗至少15分钟。就医。吸入:迅速脱离现场至空气新鲜处。必要时进行人工呼吸。就医。食入:误服者立即漱口,给饮牛奶或蛋清。就医。灭火方法:二氧化碳、砂土、泡沫、干粉。
