高强钢绞线网,high-strength steel wire mesh
1)high-strength steel wire mesh高强钢绞线网
1.Experimental investigation on columns strengthened withhigh-strength steel wire mesh and polymer mortar under eccentric loading;高强钢绞线网—聚合物砂浆加固偏压柱的试验研究
2.Experimental study on existing brick walls strengthened withhigh-strength steel wire mesh and polymer mortar高强钢绞线网-聚合物砂浆抗震加固既有建筑砖墙体试验研究
3.The RC columns strengthened byhigh-strength steel wire mesh and polymer mortar are simulated and analyzed,and the factors affecting the behavior of the columns are studied.对采用高强钢绞线网片-聚合物砂浆复合面层加固后的钢筋混凝土柱进行ANSYS有限元模拟分析,研究了几种参数对试件的影响。
英文短句/例句
1.Bond-slip of reinforced layer with steel wire mash and polymer mortar高强钢绞线网-聚合物砂浆加固层粘结滑移
2.Study on Debonding Failure of Reinforced Layer Strengthened with High Strength Stainless Steel Wire Mesh and Polymer Mortar高强钢绞线网-聚合物砂浆加固层剥离破坏研究
3.Experimental Study on Reinforced Concrete Beams Strengthened with Carbon Fiber Sheet and Stainless Steel Wire;碳纤维布及高强钢绞线网加固钢筋混凝土梁的试验研究
4.Review of Research on Strengthening Technique with Strength Steel Wire Mesh and Polymer Mortar高强钢绞线网-渗透性聚合物砂浆加固技术研究综述
5.Studies on RC Beams Strengthened with SMPM Using Finite Element Method高强钢绞线网-聚合物砂浆加固RC梁的有限元分析
6.Experimental study on existing brick walls strengthened with high-strength steel wire mesh and polymer mortar高强钢绞线网-聚合物砂浆抗震加固既有建筑砖墙体试验研究
7.Experiments on Bond Performance Between Reinforced Layer with Steel Wire Mesh and Polymer Mortar and RC Structures高强钢绞线网-聚合物砂浆加固层与RC结构黏结面性能试验
8.EXPERIMENTAL STUDY OF SHEAR BEHAVIOR OF RC BEAMS STRENGTHENED WITH STAINLESS STEEL WIRE MESH AND POLYMER MORTAR UNDER SECONDARY LOAD高强钢绞线网-聚合物砂浆抗剪加固梁二次受力试验研究
9.High-strength Steel Cable Network-New Technology Reinforced Polymer Mortar Beams Bending Bearing Capacity Calculation Method高强钢绞线网-聚合灰浆加固新技术梁正截面受弯承载力计算方法研究
10.Experimental Study on Bonding Anchorage Performance of Stainless Steel Wire Mesh and Polymer;高强不锈钢绞线网—聚合砂浆粘结锚固性能的试验研究
11.Experimental Study of the Seismic Behavior of RC Column Strengthened with High Strength Steel Wire;高强不锈钢绞线网用于混凝土柱抗震加固的试验研究
12.77MnA wire rod to trial produce high strength hot-dip galvanized steel strand77MnA盘条试制高强度热镀锌钢绞线
13.Research on Steel Reinforced Concrete Slabs Strengthened with High-Strength Stainless Steel Wire;高强不锈钢绞线加固钢筋混凝土板的研究
14.Development of 1×37-32 large diameter high strength galvanized stranded wire1×37—32粗直径高强度镀锌钢绞线的研制
15.Experimental Study on Bending Fatigue Behavior of RC Beams Strengthened by Stainless Steel Wires;高强钢绞线加固钢筋混凝土梁抗弯疲劳性能的试验研究
16.Sand-blasting nozzles, drawing nibs for high strength steel wire, lathe cutting tools, saw tips.适合于喷沙嘴、适合高强钢绞线的拔丝夹头、车刀、锯齿。
17.Selection and Control of Tensile Strength of Aluminium Wires in ACSR钢芯铝绞线铝单线抗拉强度的选择及控制
18.Steel Twist Wire Mesh-Polymer Mortar Composite Coating Reinforcement Technique钢绞线网片-聚合物砂浆外加层加固施工工艺
相关短句/例句
high-strength steel wire mash高强钢绞线网
1.On the bassis of test researches,a method of calculating for the bending ultimate strength of RC beams strengthened withhigh-strength steel wire mash and polymer mortar is put forward.作为一种新型的加固技术,高强钢绞线网-聚合砂浆加固法具有耐高温、耐老化、耐腐蚀、加固性能可靠等优点。
3)high strength steel wire mesh高强钢绞线网
1.Experimental study on beam-column joints with floor slab and transverse beams strengthened withhigh strength steel wire mesh and polymer mortar;高强钢绞线网-聚合物砂浆加固带有直交梁和楼板的框架节点的试验研究
2.An innovative strengthening scheme for reinforced concrete space beamcolumn joints usinghigh strength steel wire mesh and polymer mortar jacket was proposed,and the quasi-static tests of three reinforced concrete beam-column joints with floor slab and transverse beams were performed to verify the efficiency of the strengthening scheme.提出了采用新技术高强钢绞线网片-聚合物砂浆加固技术提高钢筋混凝土空间框架节点抗震性能的方法,并通过3个带有直交梁和楼板的空间框架节点试件的低周反复加载试验对该加固方法进行了检验。
4)steel wire mesh高强钢绞线网
1.Experimental study on beam-column connections strengthened with high-strengthsteel wire mesh and polymer mortar;高强钢绞线网-聚合物砂浆抗震加固框架梁柱节点的试验研究
5)stainless steel wire mesh高强钢绞线网
1.For avoiding to premature debonding failure of reinforced layer made up ofstainless steel wire mesh and permeability polymer mortar and ensuring the bond performance between polymer mortar and concrete,the experiments about the debonding failure between reinforced layer and concrete were carried out.为避免高强不锈钢绞线网-渗透性聚合物砂浆加固层发生早期剥离破坏,保证加固层与混凝土界面的粘结性能,通过9个试件的剥离破坏试验,分析了加固层与混凝土界面剥离破坏特征,测试了加固层与混凝土粘结-滑移曲线,并通过ANSYS有限元程序建立模型,对剥离破坏试验进行数值模拟,得到了加固层粘结-滑移特征参数,建立了高强钢绞线网-聚合物砂浆加固钢筋混凝土粘结-滑移本构方程。
6)high strength steel mesh高强钢绞线网片
1.A fire resistance test has been carried out for a RC beam which is retrofitted with the composite cover of thehigh strength steel mesh and polymeric motar.采用高强钢绞线网片-聚合物砂浆复合面层对一根经抗弯加固后的钢筋混凝土梁进行耐火试验。
延伸阅读
碳素结构钢及低合金高强钢焊接方法选择本文原为高力生教授、潘际銮院士和闫炳义高级技师(焊接)参加三峡总公司召开的“三峡工程金属结构焊接专家咨询会”后的一个书面意见。编者将其节录整编成文予以发表,以期对三峡工程金属结构焊接技术的提高有所裨益。 三峡工程目前正在施工的重要结构主要有电站压力钢管、水轮机座和船闸门,其中水轮机座的施工工艺质量由国外公司负责,其余两项由国内制造商和施工单位承包,闸门制造多由国内知名船厂承担,具焊接工艺比较成熟,相对船体制造的没备和工艺已不是什么难事;由于材料为强度级别较低(Q345)的低合金钢,所以今后的主要问题是工地安装时,如何提高效率,降低成本。 压力钢管的制作和安装将成为主要矛盾,工程前期共有压力钢管14条,约22500t,由于材料复杂(上段为16MnR,下段为610U2低合金高强钢),板厚度大(最厚达58mm),特别是管道直径大(φ12499mm),安装位置复杂,因此不同于常规管道的制作和安装。 此次有幸参加了三峡开发总公司工程建设部组织的“三峡工程金属结构焊接技术专家咨询会”,受益匪浅,但由于时间太短,会前对几个承包单位的工作和试验资料未及仔细学习,所以有些意见未能允分表达,现对有些观点加以说明。 1、三峡工程压力钢管的选材思想和实践是成功的 上段选用16MnR、下段选日本NKK的60kg级的610U2都是可焊性好的钢种,特别是日本的610U2,属于低碳调质钢中的焊接无裂纹钢(CF钢),其特点是含碳量低(≤0.09)、总碳当量低(CEQ2=0.39%)、裂纹敏感系数低(PCM≤0.19)。由于在钢材生产过程中采用新技术,如在线余热淬火等,在碳当量不大情况下,增加其淬透性,并加入多种微量元素,所以能在保证高强度的同时提高其塑性和韧性(-40℃时其AKv>200J甚至达300以上),增加了在减轻重量情况下得到高质量焊缝的可能性。 2、从焊接设计出发,选择焊材的原则 16MnR是焊接结构应用最多的钢种,一般焊缝按等强设计,此钢种国内的焊接材料、焊接方法配套均非常成熟。 关于610U2类型的低碳调质钢,本来其可焊性也是较好的,但是在焊接时若处理不当,在熔合区的冷裂和影响区的脆化和软化等缺陷也有发生,在特殊情况下特别是在工地安装中,对焊接热输入和预热等方面有一定要求。 焊接无裂纹钢种,采用低H或超低H焊材,在板厚50mm以下或在0℃以上环境均可不预热。此种钢冶炼技术优越,其力学指标突出,特别是在屈强比的冲击性能方面(如本次选用的610U2就是这样),但在焊接时,如要求焊缝冲击性能达到母材要求,这显然是不合适,焊缝设计其力学指标以工作要求为主,不低于母材力学指标的保证值,再留有适当余量,而不应该以母材的实测值为标准,有时为了提高焊缝的塑韧性可适当降低焊缝的设计强度指标。实践证明,低强匹配的焊缝,往往能提高焊缝的韧性和抗裂纹敏感性。
