建筑科学与工程学报
建築科學與工程學報
건축과학여공정학보
JOURNAL OF ARCHITECTURE AND CIVIL ENGINEERING
2015年
1期
58-63
,共6页
曹雪叶%赵均海%李艳
曹雪葉%趙均海%李豔
조설협%조균해%리염
爆炸荷载%钢管混凝土柱%统一强度理论%塑性极限弯矩%等效单自由度模型%逐步积分法
爆炸荷載%鋼管混凝土柱%統一彊度理論%塑性極限彎矩%等效單自由度模型%逐步積分法
폭작하재%강관혼응토주%통일강도이론%소성겁한만구%등효단자유도모형%축보적분법
blast load%concrete-filled steel tubular column%unified strength theory%plastic ulti-mate moment%equivalent single degree of freedom model%step by step integration method
基于统一强度理论,推导了钢管混凝土柱的塑性极限弯矩和均布荷载作用下简支梁的极限位移。考虑爆炸反应过程中钢管混凝土柱质量和刚度改变产生的非线性影响,采用等效单自由度模型和逐步积分法,分析了爆炸荷载作用下钢管混凝土柱的动态响应。将理论计算结果与相关文献计算结果进行对比,验证了理论计算方法的正确性。研究结果表明:随着套箍系数的增大,塑性极限弯矩及极限位移增大;随着侧压系数的增大,塑性极限弯矩增大;考虑钢管对受压区混凝土抗压强度的提高比不考虑时塑性极限弯矩提高了12%~19%;提出的计算方法满足钢管混凝土柱抗爆分析的精度要求,可为钢管混凝土柱的抗爆设计和防护提供参考。
基于統一彊度理論,推導瞭鋼管混凝土柱的塑性極限彎矩和均佈荷載作用下簡支樑的極限位移。攷慮爆炸反應過程中鋼管混凝土柱質量和剛度改變產生的非線性影響,採用等效單自由度模型和逐步積分法,分析瞭爆炸荷載作用下鋼管混凝土柱的動態響應。將理論計算結果與相關文獻計算結果進行對比,驗證瞭理論計算方法的正確性。研究結果錶明:隨著套箍繫數的增大,塑性極限彎矩及極限位移增大;隨著側壓繫數的增大,塑性極限彎矩增大;攷慮鋼管對受壓區混凝土抗壓彊度的提高比不攷慮時塑性極限彎矩提高瞭12%~19%;提齣的計算方法滿足鋼管混凝土柱抗爆分析的精度要求,可為鋼管混凝土柱的抗爆設計和防護提供參攷。
기우통일강도이론,추도료강관혼응토주적소성겁한만구화균포하재작용하간지량적겁한위이。고필폭작반응과정중강관혼응토주질량화강도개변산생적비선성영향,채용등효단자유도모형화축보적분법,분석료폭작하재작용하강관혼응토주적동태향응。장이론계산결과여상관문헌계산결과진행대비,험증료이론계산방법적정학성。연구결과표명:수착투고계수적증대,소성겁한만구급겁한위이증대;수착측압계수적증대,소성겁한만구증대;고필강관대수압구혼응토항압강도적제고비불고필시소성겁한만구제고료12%~19%;제출적계산방법만족강관혼응토주항폭분석적정도요구,가위강관혼응토주적항폭설계화방호제공삼고。
T he plastic ultimate moment of concrete‐filled steel tubular and the ultimate displacement of the simply supported beam under uniformly distributed load were derived based on unified strength theory .Considering nonlinear impact of mass and stiffness changed in the process of the reaction ,the dynamic responses of concrete‐filled steel tubular columns under blast load were analyzed by the equivalent single degree of freedom model and step by step integration method .The results of this method were compared with relevant literatures and the accuracy of the method was verified . The study results show that the plastic ultimate moment and the ultimate displacement increase along with the increase of hoop coefficient ;the plastic ultimate moment also increases along with the increase of lateral pressure coefficient ;the plastic ultimate moment considering the improvement of the compressive strength of concrete increases 12%‐19%than that without considering the improvement . The proposed method is satisfied for the requirement of the analytical precision ,and can be referred for the research and the safety of concrete‐filled steel tubular columns under blast load .