The active ingredient in Coke is phosphoric acid.
可乐中的活跃成份就是含磷的酸性物质。
Theories abound as to why this happens, with some bloggers speculating that it is an acid-base reaction because Coke is acidic.
一些blogger们深思后得出了解释这一现象的原因的理论——这是种酸碱反应,因为可乐是酸性的。
Measurements of the pH of the Coke before and after the experiments showed that its acidity did not change, ruling out the idea that a simple acid-base reaction drives the fountains.
经过测量反应前和反应后实验前后的可乐pH值发现前后酸性没有发生变化,排除了简单的碳酸反应导致这喷泉影响的想法。
Like the previous item, the citric acid in Coke makes for an excellent window cleaner.
如同上一项的作用机理,可乐中的柠檬酸是清洗窗户的好助手。
Production of copper plating technology commonly used by a copper with copper with coke, acid, phosphate copper with etc.
生产上常用的镀铜工艺有氰化镀铜、酸性镀铜、焦磷酸盐镀铜等。
A can of Coke poured into the toilet will clean it. The acid in the drink gets to work right away.
倒一罐可乐到马桶里可以当清洁剂用,可乐里的酸会马上起作用。
We studied the fabricating method of humic acid sodium and forming process of lignite semi-coke and tested strength indexes of moulded coke of different proportioning.
研究了黏结剂腐植酸钠的制备方法及褐煤半焦成型工艺,并对不同配比的型焦作了各种强度指标测试。
The stronger the acid sites are the easier coke deposition will be and more acid sites means more coking locations.
积炭的形成部位与酸中心在晶内外的分布关系密切。
The various strength indexes of the different ratio formed coke are determined, the results show that the formed coke exhibits high strength when the addition of humic acid sodium is up to 7%.
对不同配比的焦球作了各种强度指标的测定,结果表明当腐植酸钠的配入量达7%时,焦球的各项强度指标均较高。
Like the previous item the citric acid in Coke makes for an excellent window cleaner.
如同上一项的作用机理,可乐中的柠檬酸是清洗窗户的好助手。
With the boric acid as the passivator, a series of tests were conducted to study the passivator density, coke quality and passivation method influenced to the passivation results of the coke.
以硼酸作钝化剂,通过系列试验考察了钝化剂浓度、焦炭质量和钝化方式对焦炭钝化效果的影响,并探讨了硼酸改善焦炭热性能的机理。
Acids, like the weak acid present in your can of Coke, can react with oxides to effectively reverse the process of tarnishing.
而酸,比如可乐中的弱酸,和氧化物产生化学反应,能有效避免生锈。
The results showed that the decomposition of boric acid happens on coke surface and B2O3 is produced covering on the surface of coke pores to prevent coke from contact with CO2.
结果表明:硼酸复合制剂在炽热焦炭的表面发生分解,生成B2O3覆盖在焦炭气孔的表面,阻碍焦炭与CO2的接触;
The results showed that the decomposition of boric acid happens on coke surface and B2O3 is produced covering on the surface of coke pores to prevent coke from contact with CO2.
结果表明:硼酸复合制剂在炽热焦炭的表面发生分解,生成B2O3覆盖在焦炭气孔的表面,阻碍焦炭与CO2的接触;
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