1.
The Mechanical Characteistics of the Pressure Study on Modified Raw-soil Materials and Adobe Masonry
改性土体材料及土坯砌体的受压力学性能研究
2.
PERFORMANCE TEST OF COMPATIBLE SLURRY GROUTING INTO SOIL FRACTURE AT ANCIENT CITY OF JIAOHE
交河故城土体裂隙灌浆材料性能试验
3.
Emphatically reviewed four systems of permanent magnet material: Al-Ni-Co magnet, ferrite magnet, rare-earth magnet and glue magnet.
着重评介了铝镍钴系永磁材料、氧体永磁材料、土永磁材料和粘结永磁材料四大系列。
4.
Study on Stress-Strain Relationship for Soils Reinforced by Geosynthetics;
土工合成材料加筋土体的应力-应变特性研究
5.
Hydrothermal Synthesis of Inorganic Semiconductor Nanomaterials and Luminescent Rare Earth Nanomaterial;
水热法合成无机半导体纳米材料及其掺杂稀土发光纳米材料
6.
Influences and Control of Raw Materials on Crack of Mass Concrete of Foundation;
原材料对基础大体积混凝土裂缝的影响与控制
7.
A Study of Optimization of the Ecological Building Material System of Traditional Rammed Earth Dwellings;
传统夯土民居生态建筑材料体系的优化研究
8.
Experimental Studies on Durabilities of Concretes with Different Binder Systems;
不同胶凝材料体系混凝土的耐久性试验研究
9.
The Shaking Table Experimental Study on Liquefiable Sand Soil Improved by Granular Sand Pile;
散体材料砂桩加固液化砂土的振动台试验研究
10.
Numerical Simulation of Static and Dynamic Mechanics Performance of Mass Concrete;
大体积混凝土材料静、动力学性能数值模拟
11.
First Principles Calculation of Diluted Magnetic Semiconductors and Rare Earth Permanent Magnets;
稀磁半导体和稀土永磁材料的第一性原理计算
12.
An Analogy between the Oxide high Tc Superconductors and the Ra re Earth Permanent Magnet Materials;
高Tc氧化物超导体与稀土永磁材料的一点类比
13.
Emission property of Molybdenum secondary emitter doped with Y_2O_3 and Lu_2O_3
Y_2O_3-Lu_2O_3体系稀土-钼次级电子发射材料性能研究
14.
Aged asphalt modified by styrene-butadiene elastomer/montmorillonite composites
丁苯弹性体/蒙脱土复合材料改性老化沥青
15.
On overall optimization of teaching reform for civil engineering materials course
土木工程材料课程教学改革整体优化探讨
16.
Study on Application of Concrete in Fly Ash Cement Material System
粉煤灰胶凝材料体系混凝土的应用研究
17.
Advances in phosphorescent materials of rare-earths ions doped silicate system
稀土掺杂硅酸盐体系长余辉发光材料研究进展
18.
A New Pile-soil Stress Ratio Calculation Method of Composite Foundation with Friable Material Piles
散体材料桩复合地基桩土应力比计算新方法