1) form finding experiment
张拉成形试验
2) tension
张拉
1.
Construction control of tension and grouting of pre-stressed concrete continuous box beam;
预应力混凝土连续箱梁的张拉与压浆施工控制
2.
The pre-stressed tension and stress supervision during cantilever casting bridge s healing;
悬浇桥梁合拢时的预应力张拉和应力监控
3.
Cable-tension Analysis of Stay-cable Prestressed Steel Lattice Shell Structure in Stadium Terrace;
体育场看台预应力斜拉钢网壳拉索张拉分析
3) stretching
张拉
1.
The processing of T-beam prestress tendon and stretching construction technology;
T梁预应力筋的加工与张拉施工工艺
2.
Aiming at prestress stretching question,the treating measures were provided,so as to provide references for us.
阐述了预应力楼板结构中,采用快速铺放预应力板筋施工、减少施工难度的方法,并结合工程实例,从方案及现场施工着手,进行了一定的探索,针对预应力张拉问题提出了处理措施,以供参考。
3.
In order to guarantee the construction quality of 500 mm×1 900 mm bonded prestress beam,its construction procedure,installation and demolishment of formwork,corrugated pipe setting,prestressed beam baiting,threading and stretching duct grouting and end envelop and other construction points were illustrated,so as to guarantee both quality and quantity.
为了保证500 mm×1900 mm预应力梁的施工质量,对该预应力梁的施工顺序、模板安装与拆除、波纹管留设、预应力筋下料、穿束与张拉孔道灌浆及端部封裹等方面分别阐述其施工要点,保质保量地完成了该预应力大梁的施工。
4) tensioning
张拉
1.
Application on the Double control technology in the process of tensioning the tendons with post potensioning method;
“双控”技术在后张法预应力筋张拉中的应用
2.
The Cause of Sliding and the Modified Recommendations of Wedge during the Post-tensioning Procedure;
锚具在张拉过程中滑丝现象的机理与结构改进
3.
Erecting and Tensioning Stay Cables of the Second Changjiang River Bridge in Wuhan;
武汉长江二桥缆索挂设与张拉
5) Stretch
张拉
1.
Research on prestress stretching control of a large-span truss string structure;
大跨度张弦桁架预应力张拉控制研究
2.
According to mentioned principle,cables were stretched by three degrees.
拉索张拉原则为在正常使用荷载状况下,网架跨中位置挠度值为0。
3.
The paper summarizes the technical preparation before the stretch of prestressed concrete beam, focuses on the determination of coefficient a、b in regression equation and the computation of the stretch of prestressed concrete hollow board, and explains by examples.
总结了预应力混凝土梁板张拉(后张法)前的技术准备工作,着重论述了回归方程中a,b系数的确定及预应力混凝土空心板的张拉计算,并举实例进行了说明。
6) extension
张拉
1.
The extension construction of prestressed ring beam without bond;
无粘结预应力环梁的张拉施工
2.
Based upon analysis of questions existed practical measures are proposed for cracks control before extension construction.
介绍了无粘结后张预应力钢筋混凝土的施工工艺流程、后张无粘结预应力混凝土结构的施工工艺及需重点注意的问题,并分析了其目前存在的不足,同时论述了无粘结预应力钢筋混凝土结构能顺利张拉前的裂缝控制。
3.
Combined with practical work, the pore-forming, installation, grouting, extension and other aspects the construction technology of anchor cable is introduced.
结合具体的工程实例,从锚索的成孔、安装、注浆以及锚索的张拉等方面,介绍了锚索的施工工艺,阐述了其在工程中的应用,经实践证明,施工效果良好。
参考词条
补充资料:主要射出成形材料成形时应注意事项
■主要射出成形材料成形时应注意事项
品 名 注 意 事 项
PVC
聚氯乙烯
1. 产品种类范围非常广(硬质、软质、聚合物等),成型条件各有不同,从熔融至分
解之温度范围很小,尤须注意加热温度。
2. 附着水分少,但成型周期尽可能减少(50℃~60℃热风干燥)。
3. 成型机方面,与材料直接接触的部位须电镀或采用不锈钢以防热分解所产生的盐酸
侵蚀。射出压力2100kg/cm2程度。
4. 所有塑料当中必须是细心注意温度调节。
5. 浇口附近易产生流纹,故射出操作后,柱塞不要后退使浇口充分固化后再瞬间退后为宜。
6. 加热之初温不宜高,特别注意熔融情形。第二级加热温度较高,且尽可能使成形周
期缩短,比较安全。
PA
聚醯胺树脂
1. 成型温度比其它材料高,故采用油加热的成形机较适当。
2. 吸湿性大,必须充分干燥。水分对成型品的品质影响甚大(80℃热风干燥约5~6小时)。
3. 须退火以消除内部歪斜。
PP
聚丙烯
1. 同PE,但成形温度必须较高。熔融温度170℃,超过190℃则流动性大增,则毛边增加,
易产生接缝及凹入情形。
PC
聚碳酸脂
1. 吸湿性比尼龙小,但若有些微之水分存在则成型品产生其它色泽或气泡,故必须密封
干燥同时成形时也须预备干燥(120℃之温度4小时)。
2. 加热温度超过320℃时则产生热分解,成品变色,故特别注意温度调节,又成型时的温度调节也非常重要,须特别注意其最低温度、最低时间。
3. 须退火以消除内部歪斜(130℃~135℃,1小时程度为准)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。