西安建筑科技大学学报(自然科学版)
西安建築科技大學學報(自然科學版)
서안건축과기대학학보(자연과학판)
JOURNAL OF XI'AN UNIVERSITY OF ARCHITECTURE & TECHNOLOGY
2014年
2期
210-216
,共7页
王辉%汪楚清%薛建阳%赵雪灵
王輝%汪楚清%薛建暘%趙雪靈
왕휘%왕초청%설건양%조설령
输电铁塔%几何非线性%材料非线性%极限承载力%次应力
輸電鐵塔%幾何非線性%材料非線性%極限承載力%次應力
수전철탑%궤하비선성%재료비선성%겁한승재력%차응력
steel tower%geometric nonlinearity%material nonlinearity%finite element%secondary stress
输电铁塔通常被简化成桁架结构并采用线弹性和小变形分析方法进行设计,而特高压输电铁塔结构柔度大、负载高、杆件连接复杂,若仍按线弹性分析不能准确反映其真实的受力情况。采用有限元分析方法建立铁塔空间梁杆混合模型,单元模型中考虑几何非线性和材料非线性的双重影响,并与在设计荷载下的真型塔试验对比验证了模型的正确性。分析结果表明,按线弹性和小变形法设计的特高压输电铁塔安全裕度过大、浪费材料,应考虑几何非线性、材料非线性及端弯矩对结构受力性能的影响。最后对铁塔主材的应力计算及次应力分布特点进行分析,为评估特高压输电塔的承载力提供参考设计建议。
輸電鐵塔通常被簡化成桁架結構併採用線彈性和小變形分析方法進行設計,而特高壓輸電鐵塔結構柔度大、負載高、桿件連接複雜,若仍按線彈性分析不能準確反映其真實的受力情況。採用有限元分析方法建立鐵塔空間樑桿混閤模型,單元模型中攷慮幾何非線性和材料非線性的雙重影響,併與在設計荷載下的真型塔試驗對比驗證瞭模型的正確性。分析結果錶明,按線彈性和小變形法設計的特高壓輸電鐵塔安全裕度過大、浪費材料,應攷慮幾何非線性、材料非線性及耑彎矩對結構受力性能的影響。最後對鐵塔主材的應力計算及次應力分佈特點進行分析,為評估特高壓輸電塔的承載力提供參攷設計建議。
수전철탑통상피간화성항가결구병채용선탄성화소변형분석방법진행설계,이특고압수전철탑결구유도대、부재고、간건련접복잡,약잉안선탄성분석불능준학반영기진실적수력정황。채용유한원분석방법건립철탑공간량간혼합모형,단원모형중고필궤하비선성화재료비선성적쌍중영향,병여재설계하재하적진형탑시험대비험증료모형적정학성。분석결과표명,안선탄성화소변형법설계적특고압수전철탑안전유도과대、낭비재료,응고필궤하비선성、재료비선성급단만구대결구수력성능적영향。최후대철탑주재적응력계산급차응력분포특점진행분석,위평고특고압수전탑적승재력제공삼고설계건의。
Transmission towers are traditionally idealized for space truss whose members are assumed to be axially loaded and stress calculations are obtained from a linear elastic and small-displacement analysis. In practice, such conditions do not exist, especially for UHV transmission tower whose structure is flexible, high-loaded and connection is complex. A beam-line model based on finite element theory is built, with both geometrical nonlinearity and material nonlinearity considered in the model. The method has been calibrated with results from full-scale tower tests with good accuracy in terms of the design load. The results show that UHV transmission tower designed according to the current theory has large safety margin, and geometrical nonlinearity material nonlinearity and bending moment should also be considered in analysis. So the, stress calculation method and secondary stress distribution of primary member is studied, and the method can be employed to assess the strength of UHV transmission tower and strengthen the existing towers.