河海大学学报(自然科学版)
河海大學學報(自然科學版)
하해대학학보(자연과학판)
JOURNAL OF HOHAI UNIVERSITY (NATURAL SCIENCES)
2013年
5期
439-445
,共7页
曹学兴%何蕴龙%冯蕊%熊堃
曹學興%何蘊龍%馮蕊%熊堃
조학흥%하온룡%풍예%웅곤
重力坝%下游折坡点%抗震性能%应力%裂缝
重力壩%下遊摺坡點%抗震性能%應力%裂縫
중력패%하유절파점%항진성능%응력%렬봉
gravity dam%downstream turning point%seismic performance%stress%cracks
为分析重力坝下游折坡点位置对其抗震性能的影响,从震害工程及有限元计算两方面分析重力坝的抗震性能。结果表明:下游折坡点位置过低将对重力坝抗震性能带来不利影响;坝颈部位应力随下游折坡点位置的降低而增大,且增幅随坝高的增加而增大。为保证大坝具有良好的抗震性能,工程设计中下游折坡点位置不宜取太低,在8度及以上地震烈度区,100 m高重力坝折坡点位置不宜低于坝高的20%。云南某水电站水库计算结果表明:大坝在设计地震作用下,坝颈部位产生了明显的应力集中,并出现裂缝;当地震超载系数为1-17时,坝颈部位上下游的裂缝贯通,大坝抗震性能较差,在工程设计中应合理提高下游折坡点的位置。
為分析重力壩下遊摺坡點位置對其抗震性能的影響,從震害工程及有限元計算兩方麵分析重力壩的抗震性能。結果錶明:下遊摺坡點位置過低將對重力壩抗震性能帶來不利影響;壩頸部位應力隨下遊摺坡點位置的降低而增大,且增幅隨壩高的增加而增大。為保證大壩具有良好的抗震性能,工程設計中下遊摺坡點位置不宜取太低,在8度及以上地震烈度區,100 m高重力壩摺坡點位置不宜低于壩高的20%。雲南某水電站水庫計算結果錶明:大壩在設計地震作用下,壩頸部位產生瞭明顯的應力集中,併齣現裂縫;噹地震超載繫數為1-17時,壩頸部位上下遊的裂縫貫通,大壩抗震性能較差,在工程設計中應閤理提高下遊摺坡點的位置。
위분석중력패하유절파점위치대기항진성능적영향,종진해공정급유한원계산량방면분석중력패적항진성능。결과표명:하유절파점위치과저장대중력패항진성능대래불리영향;패경부위응력수하유절파점위치적강저이증대,차증폭수패고적증가이증대。위보증대패구유량호적항진성능,공정설계중하유절파점위치불의취태저,재8도급이상지진열도구,100 m고중력패절파점위치불의저우패고적20%。운남모수전참수고계산결과표명:대패재설계지진작용하,패경부위산생료명현적응력집중,병출현렬봉;당지진초재계수위1-17시,패경부위상하유적렬봉관통,대패항진성능교차,재공정설계중응합리제고하유절파점적위치。
The influence of the downstream turning point on the seismic performance of a gravity dam was studied through earthquake projects and finite element calculation. The results show that a position of the downstream turning point that was too low had adverse effects on the seismic performance of the gravity dam. The stress of the neck of the dam increased with the descending position of the downstream turning point and the ascending height of the dam. To ensure good seismic performance of the dam, the position of the downstream turning point should not be too low in project design;it should not be lower than 20% of the height of the dam for a 100 m-high gravity dam in areas with an earthquake intensity of eight or an even higher degree. Linear elastic and nonlinear dynamic finite element analysis were conducted for a practical project in a hydropower station in Yunnan Province. The calculation results show that, under the design earthquake effects, obvious stress concentration and cracks appeared in the neck of the dam. When the earthquake overload coefficient was 1-17, the upstream cracks joined the downstream cracks in the neck of the dam, indicating that the seismic performance of the dam was very poor. The downstream turning point should be reasonably improved in project design.