科学技术与工程
科學技術與工程
과학기술여공정
SCIENCE TECHNOLOGY AND ENGINEERING
2010年
7期
1797-1801
,共5页
郑华彬%韩大建%黄炎生%梁德飞
鄭華彬%韓大建%黃炎生%樑德飛
정화빈%한대건%황염생%량덕비
加固%可靠度%轴心受压构件%粘钢板
加固%可靠度%軸心受壓構件%粘鋼闆
가고%가고도%축심수압구건%점강판
reinforcement%reliability%axially compressed member%bonding steel plate
根据现行的加固设计规范提出了确定轴心受压柱可靠度指标β的方法,并且分析了由于功能改变而进行粘钢加固的构件可靠度指标的影响因素.运用静态随机过程模拟,建立了实用的轴心受压构件荷载模型和抗力模型.按照现行规范编制了计算机程序求解极限状态方程,得出粘钢加固柱的可靠度指标.并且进一步分析了可靠度指标的影响因素,按照重要性,它们依次是混凝土强度变异系数、荷载提高程度和施工荷载与设计荷载的比值.因此,加固设计的首要任务是进行既有结构的性能评价,如确定混凝土强度的变异系数等;此外,控制荷载的增加可以使结构具有足够的可靠度;最后,卸载施工也是确保结构可靠度指标满足要求的有效措施.
根據現行的加固設計規範提齣瞭確定軸心受壓柱可靠度指標β的方法,併且分析瞭由于功能改變而進行粘鋼加固的構件可靠度指標的影響因素.運用靜態隨機過程模擬,建立瞭實用的軸心受壓構件荷載模型和抗力模型.按照現行規範編製瞭計算機程序求解極限狀態方程,得齣粘鋼加固柱的可靠度指標.併且進一步分析瞭可靠度指標的影響因素,按照重要性,它們依次是混凝土彊度變異繫數、荷載提高程度和施工荷載與設計荷載的比值.因此,加固設計的首要任務是進行既有結構的性能評價,如確定混凝土彊度的變異繫數等;此外,控製荷載的增加可以使結構具有足夠的可靠度;最後,卸載施工也是確保結構可靠度指標滿足要求的有效措施.
근거현행적가고설계규범제출료학정축심수압주가고도지표β적방법,병차분석료유우공능개변이진행점강가고적구건가고도지표적영향인소.운용정태수궤과정모의,건립료실용적축심수압구건하재모형화항력모형.안조현행규범편제료계산궤정서구해겁한상태방정,득출점강가고주적가고도지표.병차진일보분석료가고도지표적영향인소,안조중요성,타문의차시혼응토강도변이계수、하재제고정도화시공하재여설계하재적비치.인차,가고설계적수요임무시진행기유결구적성능평개,여학정혼응토강도적변이계수등;차외,공제하재적증가가이사결구구유족구적가고도;최후,사재시공야시학보결구가고도지표만족요구적유효조시.
The purpose of this paper is to determine the reliability index β of axially compressed columns according to the current reinforcement design specification and to analyze the factors influencing β of bonding steel reinforced members due to function alteration.Stationary binomial process is applied to establish practical load model and resistance model for axial compressed member.And a computer program is developed as per the current specifications to obtain the reliability index of steeled columns through resolving the limit state equation.Furthermore,influence factors of reliability index βare studied and they are concrete strength variation coefficient,the load increase factor as well as the ratio of construction load to design load by the order of importance.Therefore,performance assessment of existing structure,especially determining concrete strength variation coefficient is the first important task for reinforcement design,and secondly,load increase control is effective to ensure sufficient reliability.Lastly,applying load-off construction could help make reliability index acceptable.
