“索力优化+optimization+of+cable+force”是关于优化索力管理的领域,涉及到工程设计、结构分析和施工等方面。通过优化索力管理,可以提高工程设施的安全性、可靠性和效率,同时降低成本和资源消耗。本书汇集了丰富的英语短句和例句,涵盖了索力优化的理论、方法和实践经验,旨在帮助读者更好地掌握专业知识和技能。无论从学术研究还是实际工程应用的角度,这些例句都能为读者提供宝贵的参考和启发,帮助他们更好地理解索力优化的重要性和实施方法。
索力优化,optimization of cable force
1)optimization of cable force索力优化
1.A plane finite element calculation model is made foroptimization of cable force by the stress-balance method.以西昌~攀枝花高速公路上的白沙沟1号大桥为工程背景,进行悬臂浇注施工模型试验,模拟悬臂浇注施工全过程;建立平面有限元计算模型,采用应力平衡法进行索力优化。
2.Based on the Matlab optimization toolbox,this paper used internal force and geometry as control conditions,put forward a practical method ofoptimization of cable force for cable-stayed bridge.基于Matlab优化工具箱,以结构内力和线形为控制条件,提出一种便于工程应用的斜拉桥索力优化实用方法。
3.Theoptimization of cable force in cable-stayed bridge is divided into the optimization of finised-stage cable force and construction-stage cable force.斜拉桥的索力优化可分为成桥索力的优化和施工索力的优化。
英文短句/例句
1.Cable Force Optimization of Cable-stayed Bridge Casting in Place on All Supported Framework and Definition of Construction Stage Cable Force支架现浇斜拉桥索力优化及施工阶段索力确定
2.OPTIMIZATION OF STAYED-BUCKLE CABLE FORCES DURING ADJUSTMENT OFTHE LINE-SHAPE ON LONG SPANARCH BRIDGE大跨度拱桥拱肋线形调整中的扣索索力优化
3.Study of Cable Force Optimization of Completed Cable-Supported Arch Bridge of Concrete-Filled Steel Tubes钢管混凝土拉索拱桥成桥索力优化研究
4.The Calbe Tension Optimization Design and Monitoring-Control in the Construction of Self-anchore Suspension Bridges;自锚式悬索桥施工索力优化设计与监测监控
5.Study on Cable Tension Optimization of Cable-stayed Bridge in Segmental Scaffold Construction Method;支架节段现浇法斜拉桥索力优化研究
6.Study on Optimization of Cable Tension of Completion State under Dead Load for Hybrid Cable-Stayed Bridge;混合梁斜拉桥成桥恒载索力优化研究
7.The Study of Cable Force Optimization and Arch Stability in the Erection of Arch Ribs;拱段吊装过程中的索力优化及拱肋稳定性研究
8.Cable Forces Optimization and Multi-Support Random Seismic Response of Cable-Stayed Bridges斜拉桥索力优化及多点随机地震响应分析
9.Study on Optimization Analysis of Cable Force for Construction Control of Long-span Multi-arch Bridge大跨度多肋拱桥施工控制索力优化分析研究
10.Research on Cable Force Optimum in Construction of Nanyanghu Cable-stayed Bridge南阳湖斜拉桥成桥及施工阶段索力优化的研究
11.Cable Force Adjustment and Optimization of Adjusting Sequence of Hongfenghu Long Span Bridge;红枫湖大桥成桥后索力调整及调索顺序的优化
12.The Determining and Optimization of Cable Force of Concrete Cable-Stayed Bridge with Single Tower and Single Cable Plane独塔单索面混凝土斜拉桥索力确定及优化
13.Cable Force Calculation of Daninghe Bridge Based on Zero-order Optimization Method基于零阶优化法的大宁河大桥扣索索力计算
14.Optimization of the Steel Pylon s Constitutions and Analysis of Pylon Style s Mechanics Characters;钢索塔构造优化与塔形力学特性分析
15.Research of Mechanics Characteristic and Optimized Design of Cable-Stayed Bridge with CFRP Cables;CFRP索斜拉桥力学特性研究及优化设计
16.Optimization of Cable Tension during the Construction for Cable-stayed Bridges;斜拉桥施工阶段索力确定的优化方法
17.Robust optimization design of anti-slide piles with prestressed anchor cables预应力锚索抗滑桩结构稳健优化设计
18.Analysis of Optimization of Unsupported Cable Force of Steel Frame with Cable Hoisting Method钢管骨架无支架缆索吊装法扣索索力的优化分析
相关短句/例句
cable tension optimization索力优化
1.Based on the theory of Influence Matrix,with the constraint optimization and the positive disposition analyses as its core,the "Two Stage Method" which is used for thecable tension optimization on short or medium span cable-stayed bridges is proposed.以影响矩阵理论为基础,以有约束优化法及正装分析法为核心,提出中小跨径斜拉桥索力优化"二阶段法",并结合算例加以验证。
2.Mathematical model ofcable tension optimization is set up.根据索承网壳结构受力特点 ,从适合工程应用的角度出发 ,提出双控目标函数满意度法 ,建立索力优化的数学模型 ,采用改进的复形法研究了选定截面情况下的索力优化 ,并附有算例 ,对其结构设计以及工程应用有一定参考价值。
3)cable force optimization索力优化
1.Socable force optimization problem appears.由此产生了索力优化的问题。
2.In this paper, based on interchange C bridge in ring road, the author studies on thecable force optimization, solving construction stage force, of cable-stayed bridge casting in place on all supported framework.本文以河南省南市祝庄互通式立交C匝道桥为依托,研究满堂支架上一次现浇斜拉桥索力优化问题、脱架索力的确定方法及施工阶段拉索张拉力的求解方法。
3.In this paper,thecable force optimization of cable-stayed bridges with ultra kilometer span is equated as a nonlinear implicit optimization model.将超千米级斜拉桥的索力优化问题归结为非线性隐式优化的数学模型,以系统最小弯压应变能为目标,根据合理成桥状态指定各种非线性约束条件,利用投影梯度法进行优化问题的求解,求解过程中充分考虑了各种几何非线性的影响。
4)cable pretension force optimization索力值优化
5)optimization of stayed-buckle cable force扣索力优化
6)optimization of temporary cable force扣索索力优化
延伸阅读
N-乙基 西索米星,力确兴药物名称:奈替米星英文名:Netilmicin别名: 立克菌素;硫酸奈替霉素;奈替米星;乙基西索米星;乙基紫苏霉素、硫酸乙基西梭霉素 、乙其紫苏霉素、N-乙基 西索米星,力确兴外文名:Netilmicin Sulfate, Ethylsisomicin Sulfate, Netromycin, Zetamicin成分: 由小单孢菌所产生的一种氨基糖苷类抗生素。 性状: 常用其硫酸盐,为白色结晶性粉末,易溶于水,水溶液较稳定。 药理作用: 抗菌谱与庆大霉素近似,本品的特点是对氨基糖苷乙酰转移酶AAC(3)稳定。对产生该酶而使卡那霉素、庆大霉素、妥布霉素、西索米星等耐药的菌株,本品可敏感。 抗绿脓菌不如西梭霉素、妥布霉素、阿米卡星、庆大霉素。t1/2=2.5h.适应症: 主要用于大肠杆菌、克雷白杆菌、变形杆菌、肠杆菌属、枸橼酸杆菌、沙雷杆菌、流感嗜血杆菌、沙门杆菌、志贺杆菌、奈瑟球菌等革兰阴性菌所致呼吸道、消化道、泌尿生殖系、皮肤和软组织、骨和关节、腹腔、创伤等部位感染,也适用于败血症。 用量用法: 单纯泌尿系感染:成人1日量每千克体重为3~4mg,分为2次。较严重的系统感染:成人1日量每千克体重为4~6.5mg,分成2~3次给予;新生儿(6周龄以内):1日每千克体重1-2mg;婴儿和儿童1日每千克体重5~8mg,分为2~3次给予,肌注给药。如必需滴注,则将1次药量加入50~200ml液体中,缓慢滴入。近来报道,本品1日每千克体重按4.5~6mg量,1次肌注,效果好,且副反应少。 注意事项: 耳毒性较轻,其他参见庆大霉素和链霉素。 规格: 针剂:150mg(1.5ml)。 100mg.类别:抗生素氨基糖苷类
本文如果对你有帮助,请点赞收藏《索力优化 optimization of cable force英语短句 例句大全》,同时在此感谢原作者。