1.
Principles and Structure Design of Collision Energy Absorption Equipment for Rail Cars(To Be Continued)
轨道车辆碰撞能量吸收装置原理及结构设计(待续)
2.
In a frontal collision, the car′s nose will deform to absorb the impact energy.
在正面碰撞中,汽车前端会变形,来吸收撞击能量。
3.
Investigation of Collisional Transfer in Excited Atoms by Applying Laser Absorption and Fluorescence Method;
应用激光吸收和荧光方法研究激发态原子碰撞能量转移
4.
energy absorbing roadside crash barrier
能量吸收式路边防撞护栅
5.
Study on Energy Absorption Structure and Collision Energy Absorption Characteristic to Improve Motor Vehicle Collision Resistance Performance
提高汽车耐撞性的能量吸收结构撞击吸能特性研究
6.
with front and rear crumple zones that help absorb impact energy in a collision.
当发生碰撞时,前后防撞褶皱区可发生变形吸收撞击力.
7.
Research on Crash Energy Absorbing and Occoupant Protection in Side Impact Crash;
汽车侧面碰撞吸能及乘员保护的研究
8.
Research on the Extendable and Retractable Automobile Crash Energy Absorption Device
可伸缩式汽车碰撞缓冲吸能装置研究
9.
Uniqueness and Extinction Properties of Branching-collision Processes
分支碰撞过程的唯一性和吸收性质(英文)
10.
Elastic collisions deplete very little of the electron's energy.
弹性碰撞中电子减少的能量非常少。
11.
Collisional Energy Transfer with the Participation of the Excited Cs Atoms;
激发态Cs原子参与的碰撞能量转移
12.
Collisional Energy Transfer between Alkali Atoms and Alkali Molecules;
碱金属原子与分子间的碰撞能量转移
13.
Excitation Transfer in Rb(5D-7S)-He,Ar,H_2 Collisions
Rb(5D-7S)-He,Ar,H_2的碰撞能量转移
14.
Energy transfer in Cs(7D_J)+Cs(6S_(1/2)) collisions
Cs(7D_J)+Cs(6S_(1/2))间的碰撞能量转移
15.
Cross sections for energy transfer in collision between two excited state Cs(6P) atoms
激发态Cs(6P)原子间碰撞能量转移截面
16.
"In the case of vehicle collisions, the frame is forced to crush and absorb a large portion of the energy of impact."
在车辆受到冲撞的情况下,要能承受并吸收大部分冲击能量。
17.
Crashworthiness and Energy Absorption Characteristic Analyses of Thin-walled Structures in Vehicle Body;
车辆薄壁结构碰撞吸能特性分析与改进
18.
The Research on a New Type of Crash Energy Absorption Equipment Combines Active and Passive Safety;
主被动结合新型汽车碰撞缓冲吸能装置的研究