1.
RESEARCH DEVELOPMENT OF IN-SITU FIBRILLATION COMPOSITE BASED ON POLYPROPYLENE
聚丙烯基原位成纤复合材料研究进展
2.
On In-Situ Fibrillation of GEP/PO Blends and Their Morphology, Structure and Properties;
GEP/PO共混物的原位成纤及其形态、结构与性能
3.
Study on the Morphology and Mechanical Properties of PE/PTT In-situ Fiberized Composites
PE/PTT原位成纤复合材料形态及力学性能研究
4.
Research progress on in-situ microfibrillar composites based on high-density polythylene
高密度聚乙烯基原位成纤复合材料研究进展
5.
Influence of processing conditions on the morphology and mechanical properties of PP/N6 in-situ composite
加工条件对聚丙烯/尼龙6原位成纤复合材料的影响
6.
Study on Morphology and Properties of LDPE/PA6 In-situ Fibrillation Composites;
低密度聚乙烯/尼龙6原位成纤复合体系结构与性能的研究
7.
Morphology and mechanical properties of PET-MFIAA/PP in situ fiberized composites
PET-MFIAA/PP原位成纤复合材料的形态结构及力学性能
8.
The research of in-situ modeling process for fiber winding composite shell
纤维缠绕复合材料壳体原位成型工艺研究
9.
a fabric made from viscose (cellulose xanthate) fibers.
由纤维胶(黄原酸纤维素)制成的纤维。
10.
Research on the Property of the In-situ Growthed Nano-TiO_2/PET Composite Resin and Anti-ultraviolet Fiber;
原位生成纳米TiO_2/PET复合树脂抗紫外纤维性能研究
11.
Study on the Feasibility of Repairing Frozen ACL in Situ with Tissue Engineering SF and Related Research;
皮肤成纤维细胞修复原位冻融前交叉韧带的可行性相关实验研究
12.
In-situ Synthesis of Carbon Nanotubes (Fibers) Supported on Copper and the Properties of Their Composites
铜基体上原位合成碳纳米管(纤维)及其复合材料的性能
13.
Study on the In-situ Synthesis of Nanofiber and Properties of Micro-pore Carbon Brick
原位合成碳纳米纤维及微孔碳砖结构和性能的研究
14.
DPV UL30 Gene Prokaryotic Expression and the Study of Its Localization in Duck Embryo Fibroblast
鸭瘟病毒UL30基因原核表达及在鸭胚成纤维细胞内的定位
15.
In Situ Formation of Cr Filaments during Equal Channel Angular Pressing of Casting Cu-5.7%Cr Alloy
铸态Cu-5.7%Cr合金在等径角挤压中铬纤维的原位形成
16.
To undergo or cause to undergo fibrillation.
使形成原纤维经受或使经受原纤维形成作用
17.
Morphology and mechanical property of polyethylene terephthalate/polycarbonate in-situ blending fiber
PET/PC原位复合纤维的微纤形态和力学性能研究
18.
PREPARATION IN SITU OF TiO_2 SURFACE LAYERS ON SiO_2 FIBERS BY PRECURSOR CONVERSION METHOD
先驱体转化法原位制备TiO_2膜层SiO_2纤维