摘要
由于预应力混凝土的应用越来越广,预应力在不同的结构形式中出现,由于建筑功能的要求,结构的局部跨度较大,要求采用预应力形式,非预应力部分对预应力建立的影响成为设计中需要考虑的问题。文中建立了三榀局部采用预应力的框架,讨论了非预应力框架对预应力建立的影响,以及由于非预应力框架部分与预应力长期损失相互作用对预应力的影响。为了研究,框架中预应力梁的截面尺寸、预应力筋的配筋率、形状和张拉控制应力都相同。文中应用了有限元程序ANSYS对框架进行了模拟,建模中,混凝土采用程序中的DP材料。计算过程如下:
建立框架的结构模型,将预应力作用按等效荷载加在结构上,这一过程模拟张拉预应力钢筋后,施加外荷载前,结构处于的状态。
计算出预应力的长期损失即混凝土的收、缩徐变以及钢筋松弛引起的预应力损失,分别算出预应力损失随时间的变化在张拉后1、60、180天的有效预应力值,将有效预应力作用按等效荷载加在框架上,并且将框架在正常使用状态的恒、活荷载加上。分三个荷载步模拟框架正常使用状态。
通过分析和计算,可以得出以下结论:
(1)框架的约束对预应力建立的影响在设计中是应该考虑的。尤其当约束作用较大时,会造成较大的预应力损失。
(2)可以利用框架计算中的D值法近似的估计预应力的损失。
(3)随时间的发展,每个结构的预应力度有递减的趋势,随约束刚度的增大,结构的预应力度递减的趋势增大。
With the development of the prostressod concrete, it can he used in different building structure. For the requirement of architectural function,the partial span of structure is large, prestressed concrete must be used.More attention should be payed to the consequence of reinforced concrete to prestress when designing. This paper discussed the consequence of the constrain of reinforced concreteN creep and contraction of concrete and relaxation of reinforcing steel to prestress of three frame constructions. For discussing the area of cross section ., the ratio of reinforcing steel and the shape of prestressed re in forcement are all same. Finite-element program ANSYS was used to simulating the frames.DP material was used for concrete in simulating. The procedure of calculating is as follows:
Establish the model of frame, the prestress was applied to frame as equivalent load which simulated the state of frame before the load applied on it.
Calculated the loss of prestress with development of time. Apply the effective pro-stress of 3> 60 and 180 days after prestressing.Then apply the load on the frame simulating the structure in three load step.
After analysing and calculating,the paper drew the conculsions as follows:
The reinforced concret part of structure can lead the loss of prestress,the loss will increase with increasing of stiffness of constraint.
The loss of prestross can bo calcualated approximately.
With the development of time,the prestress decrease;With the increase of stiffness of constraint, the tendency of the decrease of prestress increases.
引文
1. Gan,G.M. (1997) .Fractures Processes of Concrete,CRC,Boca Rotn, Fla.
2. Meguro.K.,and Tagel-Din,H. (2000) . "Applied Element Method for Structural Anasysis:Theory and Applocation for Linear Materils" Struct Energry/Earchquake Energey. , 17(1) 2/5-35s
3. Tagel-Din.H. (1998) . "A New Efficient Method for Nonlinear,Large Deformation and Collepe Analysis of Structure" PhD thesis Civ Energy Dept .,University of Tokyo ,Tokyo.
4. Balling, R. J. , gallup, S.S. , and McGrath, C. S. (1997) . "How to Optinize a Reinforced Concrete Column or Beam" Guide to structural optimization,Asce Rep. No.90,55-73.
5. Ferguson, P. M. Breen, J. E. , and Jirso, J. O. (1998) . Reinforced Concrete for Fundamentals in Engrg.,37,413-430.
6. Hulso,r.,and Moslcy, W.H. (1998) . Reinforced Concrete Design by Computer, Macmillan Education Ltd.,New York.
7. Ferzoka,M. (1997) . "A study on Leismic Design of R/C Beam Column Joint in High Rise Frame Structure" Research Rep., Extra Issue No. 5, Fujita Institute of Technology, Tokyo (in Japanese).
8. Mander, J. B. , Priestlyk.M. J. N. , and Park, R. (1998) . "Theotical Stress-Atrain Model for Confined Concrete" J. Struct Engry. , Asce (1418) , 1840-1826.
9. Saiidi, M, and Sizen. , M. A. (1997) . " Simple and Complex Models for Nonlinear Seismic Response of Reinforced Concrete Structures" Structural Research Serises No. 415:Civil Engineering Studies,University of Illonis,Urbrana.
10. Watanabe,F.,and I Chinoso,T. (1991) "Strength and Duetility Design of RC Members Subjected to Combined Bending and
Shear" Proc., Workshop on Concrete Shear in Earthquake University of Houston, 429-438.
11. An W., Saadatmanesh, H., and Ehsani M. R. (1991)RC Beams Strengthed with Frp Plate Analysis and Parametic Study J. Struct Engrg., ASCE 3434-3435
12. Ardwihi, W., and Nanni A. (1997) "Beharivor of Precracked RC beams Strengthed with Carbon FRP Sheets" J, Compose for Constr., Asce, 1(2), 63-70
13. Lin T. Y. and Thornton K. Secondary Moment and Moment Redistribution in Continuous Prestress Concrete Beams. PC Joural, Jan. /Feb. 1972, Vol. 17. No. 1, pp. 8-20
14. Rozvany G. and Woods J. Sudden Collapse of Unbonded Prestressed Structures, ACI Journal, Proceedings V. 66, No. 2, 1969. pp. 129-135
15. Mattock Alan H., Yamazaki K. and Kattula Basil T. Comparative Study of Prdstrssed Concrete Beams, with and without Bond. Joural of ACI(Proc. Vol. 68)Febbruary 1071, pp, 116-125
16. Coull, A., and Bose, B., "Simplified anasylsis of framed-tube structures" Vol. 1O, No. 2, P. 87-119(1993).
17.Lwonhardt F.等。特殊钢筋混凝土构件设计。程积高。北京:水利水电出版社,1986
18.房贞政。无粘结与部分预应力结构。第一版。人民交通出版社,1993。
19.林同炎,Ned H Bums.预应力混凝土结构设计(第三版)。路湛沁等译。北京:中国铁道出版社,1984。
20.车惠民。部分预应力混凝土。成都:西南交通大学出版社,1992
21.宗周红,陈国栋。预应力混凝土组合梁的实验研究。世纪之交的预应力新技术。北京:专利文献出版社,1998。
22.周履,陈永春。收缩 徐变。北京:中国铁道出版社,1994。
23.沈蒲生,罗国强。混凝土结构(第13版)。武汉:湖北工业大学出版社,1996。
24.吕志涛,孟少平。现代预应力设计。北京:中国建筑工业出版社,1998。
25.王有志,薛云冱,张启海,高锡群。预应力混凝土结构(第2版)。北京:中国水利水电出版社,1992。
26.张士诏。部分预应力混凝土。北京:人民交通出版社 1887
27.李国平。预应力混凝土结构设计原理。北京:人民交通出版社,2000。
28.丰定国,王清敏,钱国方,苏三庆。工程结构抗震(第2版)。北京:地震出版社,1995。
29.方鄂华。多层及高层建筑结构设计(第4版)。北京:地震出版社,1995
30.吴家龙。弹性力学(第2版)。上海:同济大学出版社,1996
31.徐金生,薛立红。现代预应力混凝土楼盖结构。北京:中国建筑工业出版社,1998。
32.苏小卒,朱伯龙。框架受反复荷载后破坏后预应力损失随时间的发展。福州大学学报。1996,24(3) 213-316
33.郑文忠,王英。预应力混凝土结构中预应力损失的近似估算与简化计算。工业建筑。1999,29(3) 5-8。
34.王跃文,尚仁杰,李佩勋。复杂受力预应力框架结构中滑动铰支座的应用。工业建筑。1999,29(1) 26-34。
35.吴京,孟少平。预应力混凝土抗弯承载力计算的等效荷载法。工业建筑,29(9) 29-34。
36.杨建明。预应力超静定结构的约束损失。福建建筑。2000,增(70) 5-6。
37.张敏。计算预应力筋摩擦损失和锚固损失的等.效荷载法。有色冶金设计与研究。1996,17(4)。25-30。
38.徐志均。无粘结预应力混凝土的应用与前景。石油工程建设。1996,7(5) 9-15。
39.张慧娥。部分预应力混凝土框架的计算。工业建筑。1997,27(3);25-29。
40.束继华,李佩勋。无粘结预应力技术在工程中的应用与发展。工业建筑。1997,27(8);1-6。
41.黄智伟,张保印。局部预应力框架结构整体协同工作的工程实测与分析。西安建筑科技大学学报。2001,33(1);14-18。
42.郑文中,王英,计学砚,张耀春。预应力混凝土结构极限承载力分析。工业建筑。1999,29(3);15-16
43.林雨生,方德平。部分预应力混凝土受弯构件的延性分析。华侨大学学报。1996,17(1):28-33。
44.张文胜,郭子顺。预应力混凝土超静定结构次内力的计算。合肥工业大学学报。1995,18(4);116-119。
45.杜拱辰。现代预应力混凝土结构。北京:中国建筑工业出版社,1988。
46.徐金生,薛立红。现代预应力混凝土楼盖结构。北京:中国建筑工业出版社。1998。
47.建筑结构荷载规范(GBJ9-87)。北京:中国计划出版社,1989
48.混凝土设计规范及条文说明(GBJ10-89)。北京:中国建筑工业出版社,1989
49.建筑抗震规范(GBJ11-89)。北京:中国建筑工业出版社,1989
50.钢筋混凝土高层建筑结构设计及施工规范(GBJ3-91)。北京:中国建筑工业出版社
50.无粘结预应力混凝土结构技术规范(GBJ/92-93)。北京:中国计划出版社