1.
Preliminary Study on Improving Performance of Fast-growing Trees With Nanometer Organic Montmorillonite
纳米有机蒙脱土改善人工速生材性能的初步研究
2.
Synthetic Estimation of Surface Strengthening Technique For Fast-growing Lumber from Pinus massoniana Plantation
马尾松人工林速生材表面强化工艺综合评价
3.
The strategic shift of China wood industrial raw material and resource utilization of the planted fast-growing forest
中国木材工业原料战略转移与人工速生林资源利用
4.
The Crafts Researching on Fast-Growing Wood in Making Environmental Decorate Material;
速生材制造高档装饰材料生产工艺的研究
5.
Accelerating drying of plantation Douglas-fir timber for structural use
人工林花旗松建筑材加速干燥工艺研究
6.
Fast-Growing and High-Yielding Timber Base Construction Program in Key Areas.
重点地区速生丰产用材林基地建设工程。
7.
Primary study on compression technology in wood of Populus tomentosa
毛白杨速生材压缩密实化工艺初步研究
8.
Production technology of Al alloy profile for high-speed train car body
高速列车车体用铝合金型材的生产工艺
9.
The Technic and Equipment Characteristics of Nanchang Changli High Speed Rod and Bar in Coil Production Line
高速线材和大盘卷生产线工艺及设备特点
10.
Non-destructive Testing on Properties of Fast-growing Wood Laminated Lumbers and Its Finger-jointed Lumbers of Structural Glulam;
速生林木工程结构集成材单元性能及其指接材性能的无损检测
11.
" Accelerated weathering test method for plastics, coatings and rubber materials used for machinery industrial products"
GB/T14522-1993机械工业产品用塑料、涂料、橡胶材料人工气候加速试验方法
12.
The degree to which an artificial material is tolerated by the body is known as biocompatibility.
人工材料的生物相容性即机体对人工材料的耐受程度。
13.
The Study on Biomechanics of the Artificial Cranium of EH Composite Material
EH复合材料人工颅骨的生物力学研究
14.
Investigations into Tracheal Reconstruction with a Newly Developed Prosthesis Made from Biomedical Composite Materials;
生物材料人工气管的制备与实验研究
15.
In Vitro Studies on the Role of Wear Debris in Aseptic Loosening;
人工关节材料磨屑的生物相容性研究
16.
Aquatic Ecotoxicities of Several Manufactured Nanomaterials;
几种人工纳米材料的生态毒理学研究
17.
The Experiments of Biocompatibility for the Materials of Artificial Airube
人工气管组分材料的生物学评价实验
18.
Investigation on the biotribology of the modified artificial joint materials
人工关节改性材料的生物摩擦学研究