联系,能极好的习惯地基变形;能吸收来自外部的动荷载所发生的能量,具有极好的抗震功能以及抗冲击才能。
Contact, can be very good habit of foundation deformation; can absorb the energy from the external dynamic load, with excellent seismic function and anti shock ability.
他们认为,缺少了鱼叉,登陆器的伸缩支腿会设法吸收大部分的冲击能量,但这些能量不足以使探测器不会弹起。
In the absence of the harpoons, they think, the lander's flexible legs managed to absorb most of the impact energy, but not enough to stop the probe bouncing.
在地震来临时,阻尼器最大限度吸收和消耗了地震对建筑结构的冲击能量,大大缓解了地震对建筑结构造成的冲击和破坏。
When earthquake is approaching, dampers furthest absorb and consume impact energy of earthquake to building structure, alleviating greatly impact and destruction of earthquake to building structure.
这些工作主要讨论了金属泡沫材料的拉伸、压缩、能量吸收、动态冲击、失效准则、本构关系、蠕变、疲劳和断裂等力学性能。
They are mainly concerned with the tensile and compressive behavior, energy absorption, dynamic impact, failure criterion and constitutive relation, creep, fatigue and fracture of these materials.
试验研究表明在相同重量下,设计合理的复合材料对称元件可以比金属元件吸收更多的冲击能量。
Most experimental research had demonstrated that well-designed composite symmetrical elements could absorb more impact energy than metal elements with same weight.
试验表明,在发生正面碰撞时,该碰撞防护装置能够减小车身变形、吸收碰撞能量、延长碰撞冲击时间。
Impact test shows that the collision-proof equipment can reduce body deformation, absorb impact energy, and prolong impact time.
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。
In the case of vehicle collisions, the frame is forced to crush and absorb a large portion of the energy of impact.
吸收振动和冲击能量,如汽车、火车车厢下的缓冲弹簧、联轴器中的吸振弹簧等。
Absorb vibration and impact energy, such as car, train under the buffer spring, spring vibration absorber, etc...
其在承受冲击载荷时,在冲击载荷脉宽不变的情况下,随着冲击载荷幅值的增加,隔振器吸收的能量增大。
The energy absorbed by the vibration isolator increases with the increase of the shock load value when its impulse width is invariable.
复合结构在抗动荷载方面具有明显的优势,它比一般的结构能够吸收更多的冲击能量。
The compound structures are of clear superiority in resisting dynamic loading and can absorb more shock energy than ordinary structure.
泡沫混凝土材料具有减振和吸收冲击能量的特点。
Foam concrete can reduce vibration and absorb impact energy.
依据行波能量吸收方法推导出了锚杆受爆炸波冲击时所需张力增量计算公式。
Based on the basis of traveling wave energy absorption method, the formula of allow tension increment of anchorage cable under condition of the blast wave shock is derived.
发现随着冲击位移的增加,冲击速度几乎呈线性下降,冲击加速度很快减少到一个极小值,而能量吸收阶段中前阶段的吸收速度比后阶段快。
The results indicate that, with the increase of the impact displacement, the impact velocity decreases almost linearly, and the impact acceleration quickly declines to a minimum.
所制成的亚麻纱与聚丙烯长丝复合材料具有优良的拉伸性能和抗冲击能量吸收性能等特性。
The finished flax yarn and polypropylene filament composite material has good tensility, impact-resistant property and energy absorption property, etc.
在采用了多层容器结构和薄壁钢管能量吸收装置等措施后,容器安全地承受了爆炸装置形成的弹片和冲击波的破坏作用。
With the double layered structure and the thin wall cylinder energy absorbing system, the explosion wave and high speed fragments were successfully sustained within the container.
利用传感器技术记录了落锤冲击板过程中速度随时间变化曲线,计算了冲击动能和材料损伤时的能量吸收。
The drop weight velocity during impacting was obtained and recorded by a velocity transducer and the corresponding signal processing system.
从能量吸收和应力波传播两方面研究了高冲击下电子线路灌封材料的缓冲机理及材料的选用准则。
The cushioning mechanism and selecting rules of sealing materials were analyzed from energy-absorption and stress wave spread.
研究了面内冲击载荷作用下不同形状单胞的动态变形机制及能量吸收特性。
The dynamic deformation and the energy absorption mechanism of cells with different geometrical topology under in-plane impact loading have been studied.
结果表明:随着冲击能量的增大,接触力峰值前移,且冲击后板吸收能量与损伤散逸能的差值变大。
The results show that the peak of contact pressure moves forward and the different value of internal energy and damage dissipation energy becomes bigger with the increasing of impact energy.
分析显示,由于玻璃基质的多声子吸收,对激光能量的吸收而引起的热冲击是导致玻璃破坏的主要原因。
Analysis indicates that the main reason of the glass damage is thermal impact, which results from the absorbed laser energy for glass matrix and hydroxyl vibration.
分析了接触力、加筋壁板吸收能量和损伤散逸能对冲击响应的影响。
The effects of contact pressure, internal energy and damage dissipation energy on the impact response were analyzed.
这些工作主要讨论了金属泡沫材料的拉伸、压缩、能量吸收、动态冲击、失效准则、本构关系、蠕变、疲劳和断裂等力学性能 。
The dynamic impact energies of 16MnR welded joints were determined with high speed impact test, and the influencing factors and fracture morphology were studied.
这些工作主要讨论了金属泡沫材料的拉伸、压缩、能量吸收、动态冲击、失效准则、本构关系、蠕变、疲劳和断裂等力学性能 。
The dynamic impact energies of 16MnR welded joints were determined with high speed impact test, and the influencing factors and fracture morphology were studied.
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