1.
In-Plane Nonlinear Theory and Elastic-Plastic Stability of Pined Circular Arches;
两铰圆弧拱非线性弯曲理论和弹塑性稳定
2.
DEFLECTION FOR REFLECTOR PLATE OF HELIOSTAT BASED ON THIN PLATE FLEXURE THEORY
定日镜反射板基于薄板弯曲理论的挠度分析
3.
The Bending Theory of Skew-anisotropic Plates and Its Application in Skew Girder Bridges
斜交构造异性板的弯曲理论及其在斜桥上的应用
4.
Study on Doubly Curved Shaped-beam Reflector Antenna Theory
赋形波束双弯曲反射器天线理论研究
5.
The Analysis and Discussion of Flexural-torsional Buckling of Thin-walled Steel Beam;
薄壁钢梁弯扭屈曲理论的分析和探讨
6.
Experiment and Theory Study on Incremental In-Plane Bending;
非连续加载面内弯曲实验与理论研究
7.
The Theory of Warp of Space Time and The Structure of Biological DNA Double Helix;
弯曲时空理论与生物体DNA双螺旋结构
8.
Experimental and Theoretical Study of Elastic Critical Local Buckling Stress of the Cold-formed Steel Bending Members;
冷弯薄壁型钢受弯构件截面弹性局部屈曲试验与理论研究
9.
Theoretical Study of Multifurcated Bent Hydrogen Bonds and Intermolecular Interaction;
多接触弯曲氢键及分子间相互作用的理论研究
10.
Theoretical and Experimental Study on Elastic-plastic Bending of Wide Plates
宽板弹塑性弯曲工艺的理论与实验研究
11.
On the Modes of Bending Vibrators with Theoretical Simulation and Experiments
弯曲振子振动模态的理论分析与实验研究
12.
Theoretical Calculations and Experimental Studies of Bending Center of Thin-walled Beams with Open Section
开口薄壁杆弯曲中心的理论计算和试验研究
13.
Improvement of the theoretical model of optical fibers' bending loss with arbitrary-index profile
任意折射率分布光纤弯曲损耗理论模型的改进
14.
Theoretically bend and deformation increase transmission losses in the fiber.
从理论上讲,弯曲和形变都会增大光纤的传输损耗。
15.
According to the original assumption, this theory should be applied only to long, thin beams loaded in pure bending.
根据原来的假定,这个理论只适用于受纯弯曲载荷的长而薄的梁。
16.
Theoretical and Experimental Study of the Laser-induced Ultrasonic Waves at Fluid-solid Interface and Curved Surface;
流—固界面和弯曲表面上激光超声波的理论与实验研究
17.
Experimental and Theoretical Study on Distortional Buckling of Cold-Formed Thin Wall Steel Lipped Channel Columns under Compression;
卷边槽形冷弯薄壁型钢轴压柱畸变屈曲的试验和理论研究
18.
The Research on Strip of Tension Leveling Theory and Simulation Based on Improved the Shape;
基于改善板形的带材拉伸弯曲矫直理论研究及其仿真