1) casing material
覆土材料
1.
In this paper, the effects of the organic, inorganic, nonaxenic and axenic casing materials on the primor-dia formation (fruiting gene expression) of the commercial and wild strains of Agaricus bisporus had been studied.
本文通过有机和无机、有菌和无菌覆土材料对栽培和野生双孢蘑菇菌株子实体原基发生即结实基因的表达的影响的试验研究,结果表明:①双孢蘑菇子实体原基的发生即结实基因的表达,与覆土材料是有机还是无机物质的化学性质不相关,但有机覆土材料上比无机材料上产生较多的原基;②疆土材料是否有细菌(包括假单孢杆菌)与子实体原基的发生也无完全的对应关系;③无论是无菌还是有菌的活性炭作为覆土材料都能产生大量的原基,这也许是活性炭能吸附了某些抑制双孢蘑菇结实基因表达的物质,而使原基发生。
2) cladding material
覆层材料
1.
Microstructural analysis of high hardened cladding materials;
硬质覆层材料的微观结构分析
2.
Using Mo powder,Fe-B alloy powder,and Fe powder as raw materials,and adding Cr,Ni and C alloy and agent polyvinyl butyral,Mo_2FeB_2 hard alloy was clad on a Q235 steel substrate to form a new type of cladding material with excellent wear and cor- rosion resistance property by means of vacuum liquid phase sintering technique.
以Mo粉、Fe-B合金粉、Fe粉为基本原料,掺加适量合金元素Cr,Ni,C,以及有机粘结剂聚乙烯醇缩丁醛,采用真空液相烧结法在Q235钢基体表面制备Mo_2FeB_2硬质合金覆层,获得了力学性能良好且耐磨抗蚀的新型硬质合金覆层材料。
3.
The steel bond hard alloy cladding material was prepared by liquid phase sintering technology in vacuum.
以Fe-B合金的形式在钢结硬质合金覆层配料中添加适量的元素B和有机粘结剂PVB,球磨混合后制备成料浆,喷涂在Q235钢基体上,通过真空液相烧结技术制备钢结硬质合金覆层材料。
3) polymer-coated materials
覆膜材料
1.
Sintering polymer-coated materials mechanism is analyzed.
系统地分析了覆膜材料激光加工的原理,通过分析各参数对温度的影响,得到了温度场的计算模型,并对覆膜材料的选择性激光烧结成形温度场的分布变化进行了数值模拟计算,分析了烧结过程及热物性参数之间的变化关系。
4) Cover material
覆盖材料
1.
By studying impermeability and anti\|shear performance of the sludge from wastewater treatment plant with different water content (sludge a with 80 percent and sludge b with 45 percent), this article excludes the possibility of using sludge b as landfill final cover material but presents a proposition of utilizing sludge a.
通过对 2种不同含水率的污水厂污泥 (含水率 80 %的污泥a和含水率 45 %的污泥b)的防渗性能、抗剪切性能的研究 ,排除了污泥b作覆盖材料的可能性 ,提出了一个采用污泥a作覆盖材料的方案。
5) Coating material
包覆材料
6) covering material
覆盖材料
1.
Effect of different covering materials on turf establishment;
不同覆盖材料对直播建植成坪效果的影响
2.
Thermal measurement system for measuring heat transfer coefficient of greenhouse covering materials based on virtual instrumentation;
基于虚拟仪器技术的温室覆盖材料传热系数测试系统
3.
Effects of different covering materials on tilth soil temperature and maize emergence
不同覆盖材料对耕层土壤温度及玉米出苗的影响
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