英语太差,我傻了...翻译一段! 给100分!Work on geopolymer concrete at Curtin University ofTechnology was triggered by several studies on geopolymerpaste previously conducted by others.Davidovits and Sawyer [9] used ground blast furnaceslag

英语太差,我傻了...翻译一段! 给100分!Work on geopolymer concrete at Curtin University ofTechnology was triggered by several studies on geopolymerpaste previously conducted by others.Davidovits and Sawyer [9] used ground blast furnaceslag
英语太差,我傻了...翻译一段! 给100分!
Work on geopolymer concrete at Curtin University of
Technology was triggered by several studies on geopolymer
paste previously conducted by others.
Davidovits and Sawyer [9] used ground blast furnace
slag to produce geopolymer binders. This type of
binders patented in the USA under the title Early
High-Strength Mineral Polymer was used as a supplementary
cementing material in the production of precast
concrete products. In addition, a ready-made mortar
package that required only the addition of mixing water
to produce a durable and very rapid strength-gaining
material was produced and utilised in rapid restoration
of concrete airport runways, aprons and taxiways,
highway and bridge decks, and for several new
constructions when high early strength was needed.
Geopolymer has also been used to replace organic
polymer as an adhesive in strengthening structural
members. Geopolymers were found to be fire resistant
and durable under UV light [10]. It was also found [11]
that the compressive strength after 14 days was in the
range of 5 – 50 MPa. The factors affecting the
compressive strength were the mixing process and the
chemical composition of the fly ash. A higher CaO
content decreased the microstructure porosity and, in
turn, increased the compressive strength. Besides, the
water-to-fly ash ratio also influenced the strength. It was
found that as water-to-fly ash ratio decreased the
compressive strength of the binder increased.
翻译好 我再加100

英语太差,我傻了...翻译一段! 给100分!Work on geopolymer concrete at Curtin University ofTechnology was triggered by several studies on geopolymerpaste previously conducted by others.Davidovits and Sawyer [9] used ground blast furnaceslag
科廷技术大学对地聚合混凝土的研究工作是受之前一些关于地聚合物粘合剂的研究的推动而产生的.达维多维茨和索耶运用地面鼓风炉渣来生产地聚合粘连剂.这种粘连剂以早期高强混凝土为名成为美国专利,它在预制混凝土产品的生产中充当胶合材料.另外,只需要加混合水就能产生一种耐用且快速强化的材料的砂浆包将会用于混凝土机场跑道,停机坪及滑行道,高速公路和桥梁表面的快速整修恢复,且对于几个新建筑是需要高早强混凝土的.地聚合物也被用来代替有机
聚合物作为强化结构胶粘剂.地聚合被发现有抗火和在紫外线下耐用的特质.研究还发现该抗压强度在14天后范围为5 - 50兆帕斯卡.影响抗压强度的因素是混合过程及飞尘的化学成分.此外,水与粉煤灰的比例也会影响强度.据研究,
当水与粉煤灰的比例降低时,该粘结剂抗压强度提高.
哎,这可有点费脑呀!

在工作地聚合物混凝土科廷大学
技术引发的地聚合物的几项研究
粘贴先前进行的其他人。
达维多维茨和索耶[9]用地面高炉
渣生产地聚合物粘结剂。这种类型的
粘结剂专利的标题下早在美国
高强度矿用聚合物作为补充
固井在生产材料预制
混凝土制品。此外，现成的砂浆
包，只需要混合水外
产生持久的和非常迅速的实...

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在工作地聚合物混凝土科廷大学
技术引发的地聚合物的几项研究
粘贴先前进行的其他人。
达维多维茨和索耶[9]用地面高炉
渣生产地聚合物粘结剂。这种类型的
粘结剂专利的标题下早在美国
高强度矿用聚合物作为补充
固井在生产材料预制
混凝土制品。此外，现成的砂浆
包，只需要混合水外
产生持久的和非常迅速的实力，获得
材料生产迅速恢复和利用
混凝土机场跑道，停机坪及滑行道，
高速公路和桥梁甲板，以及几个新的
建设时，早期强度高，是必要的。
地聚合物也被用来代替有机
聚合物作为加强结构胶粘剂
成员。矿物聚合材料的研究发现，抗火
和持久的紫外光下[10]。研究还发现[11]
该抗压强度后14天是在
范围5 - 50兆帕斯卡。影响因素
抗压强度是混合过程和
化学成分的粉煤灰。较高的氧化钙
含量下降的微观孔隙度，并在
反过来，增加了抗压强度。此外，
水对粉煤灰的比例也影响了实力。这是
发现水对粉煤灰的比例降低
该粘结剂抗压强度提高。

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还不错的.

科庭科技大学有关地聚合物混凝土的研究是由之前一些关于地聚合物粘合剂的研究衍生而来的。