1) renewable materials
可再生材料
1.
Lactic acid can be produced from renewable materials using various fungal species of the Rhizopus genus,which have advantages compared to the bacteria,including their amylolytic characteristics,low nutrient requirements and valuable fermentation by-product-fungal biomass.
乳酸对于许多生物可降解以及生物兼容的聚乳酸聚合物的生产有很大作用,乳酸可以从大量可再生材料中通过酒曲菌属发酵制得,较之细菌来讲,酒曲菌属具有许多优势,包括淀粉分解特性、较低的营养需求量、以及富含价值的发酵副产物——真菌生物量,综述酒曲菌属发酵生产乳酸的过程管理、代谢机制以及分子生物学的最新研究进展。
2.
The application,classification and manufacturing process of renewable materials for auto industry are reviewed.
本文综述了汽车用可再生材料的应用现状、分类及制备工艺,比较了其与玻璃纤维的相关性能,最后分析了它的工业和自然循环。
2) Renewable building materials
可再生建筑材料
4) renewable polymeric materials
可再生高分子材料
1.
pH value of renewable polymeric materials is usually determined according to the method described by Browing in which the material of a fixed solid/water ratio was used.
可再生高分子材料的pH值测定往往采用Browning介绍的办法,即通过测定一个固定比例的材料与水的混合物去反映该材料的pH值。
5) fertile blanket
(可转换材料的)再生区
6) cold regeneration material
冷再生材料
1.
In order to study the anti-washout performance of cold regeneration material, the author used a self-made washout test equipment to conduct the study based on its formation mechanism analysis.
为了研究冷再生材料的抗冲刷性能,在分析其形成机理的基础上,利用自制冲刷试验仪对冷再生材料进行抗冲刷性能的研究。
补充资料:材料界面(见材料表面)
材料界面(见材料表面)
interface of materials
材料界面interfaee of materials见材料表面。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条