1.
Abstract: The friction energy dissipator is a seismic response damping device with simple structure and easy installation.
文摘:摩擦耗能器是一种构造简单、制作方便的耗能减震装置。
2.
Discussion on energy saving approach and energy consumption analysis in CDU
常减压装置能耗分析与节能途径探讨
3.
Seismic analysis of frame structures with energy dissipating braces installed in partial stories
局部楼层设置耗能支撑的框架结构减震分析
4.
a cushion-like device that reduces shock due to contact.
由于接触能够减少震动的垫子状装置。
5.
The shock absorption properties of Pall frictional energy dissipation shock absorber
Pall摩擦耗能减震器减震性能研究
6.
Effective shock absorber can make sure that generator set runs steady.
*高效减震装置能确保发电机组平稳运行。
7.
Frame Structure Seismic Vibration-suppressed Behavior with Friction Energy Dissipation Brace;
摩擦耗能支撑框架结构减震性能研究
8.
Expansion、Energy Conservation、Quality Improvement Revamping of CNPC Jinxi Branch's No.2 Atmospheric and Vacuum Distillation Unit;
锦西石化分公司Ⅱ套常减压装置扩能、降耗、改质改造
9.
Seismic Analysis on Frame-Tube Structure with Seismic Energy Dissipation Story;
带耗能减震层的框架—核心筒结构抗震性能分析
10.
Studies on Performance-Based Seismic Design Method for Steel Structure with Dampers;
耗能减震钢结构基于性能的抗震设计方法研究
11.
Performance-Based Seismic Design Method for Passive Energy Dissipated Steel Structures;
被动耗能减震钢结构基于性能的抗震设计方法
12.
Performance-Based Seismic Design Method for Buildings Equipped with Passve Energy Dissipation Systems;
被动耗能减震结构基于性能的抗震设计方法
13.
Analytical Studies on the System of High-level Transfer Structure with Energy Dissipated Device;
高位转换耗能减震结构体系分析研究
14.
PARAMETER OPTIMIZING AND CUSHIONING EFFECT OF COMBINED STEEL LEAD DAMPER
钢铅组合耗能器参数优选及减震效果
15.
Rearch on the Total Energy Consumption Ratio of Dampers between Stories in Passive Energy Dissipation Structures
耗能减震结构中耗能器总耗能层间分配比例研究
16.
Improving Albany Grease Plant for Decreasing Plant Loss
改进润滑脂黄油装置 降低装置能耗
17.
Passive Energy Dissipation Control Analysis of the Eccentric Structure Earthquake Torsional Response;
偏心结构地震扭转反应的耗能减震控制分析
18.
Study on Ductile Earthquake-resisting and Metal Damping of Self-anchored Suspension Bridge
自锚式悬索桥延性抗震和金属耗能减震研究