1.
Manufacture of Super Lightweight High-Strength Aggregate with Fly Ash,Sludge and Slurry
利用粉煤灰、污泥、淤泥生产超轻和高强陶粒的试验研究
2.
Research on High-Strength Shale Aggregate s Preparation and Property for Aggregate Concrete;
高强页岩陶粒制备及其混凝土性能研究
3.
Preparation of High-Strength Lightweight Lytag and Its Concrete Performance
轻质高强粉煤灰陶粒的制备及其混凝土性能
4.
The Experimental Research on Fiber Reinforced Ceramsite Concrete about High Temperature Performance
纤维增强陶粒混凝土耐高温性能的实验研究
5.
Research on Factors to Affect the Preparation of High-Strength Ceramsite in Low Absorption
高强粉煤灰烧胀陶粒制备的影响因素研究
6.
Effect of pre-wetted shale ceramsite with low water absorption on performances of high-strength lightweight aggregate concrete
低吸水率页岩陶粒预湿处理对高强轻集料混凝土性能的影响
7.
Progress on Ceramic Particles Reinforced Copper-matrix Composites
陶瓷颗粒增强铜基复合材料研究进展
8.
ceramic high heavy grinding wheel
陶瓷高强力磨削砂轮
9.
Property and process of waterproof reinforced gypsum ceramsite partition.
耐水增强石膏陶粒隔墙板的性能与工艺
10.
Synthesis and Mechanical Properties of Ni-P Composite Coatings Reinforced by Ceramic Nano-Particles;
陶瓷纳米颗粒增强Ni-P复合镀层的制备与性能
11.
Study on Ceramics Particles Reinforced Iron Matrix Surface Composites;
陶瓷颗粒增强铁基表面复合材料的研究
12.
Preparation of Modified Ceramsite and Experiment Research in Enhanced Filtration;
改性陶粒的制备及其强化过滤的试验研究
13.
Effects of Finely Dispersed B_4C on the Strength and Toughness of Si_3N_4 Ceramics;
细分散B_4C颗粒对Si_3N_4陶瓷的增强与增韧效应
14.
Effect of Ceramic Particles and Nano-crystallines on the Strength and Plasticity of Zr-Cu Based Bulk Metallic Glasses
陶瓷颗粒、纳米晶对Zr-Cu基非晶强韧性的影响
15.
Sub-micron Ceramics Particle Reinforced Alloying Coating
亚微米陶瓷颗粒补强合金化涂层的研究
16.
Discussing on Effect of Al_2O_3 Particles on Reinforcing and Toughening Mechanism of LiTaO_3 Matrix Piezoelectric Ceramic Composite
Al_2O_3颗粒对LiTaO_3压电陶瓷增强增韧机制的探讨
17.
Study on Powder Materials Granularity and Pull Strength of Matelized Ceramics
陶瓷金属化粉料粒度与抗拉强度的研究
18.
fine ceramics(advanced ceramics, advanced technical ceramics)-test method for flexural strength of monolithic ceramics at elevated temperature
细陶瓷-单块陶瓷高温弯曲强度试验方法