| 1. | Inspection manhole lid made of polymer matrix composites
聚合物基复合材料检查井盖 |
| 2. | Composite material inspection well lid of regenerated resin
再生树脂复合材料检查井盖 |
| 3. | Steel fiber reinforced concrete checking well cover
钢纤维混凝土检查井盖 |
| 4. | Discussion on the building of catch pits in front of residential districts
浅谈住宅小区楼前排水检查井的做法 |
| 5. | Concrete manholes and inspection chambers , unreinforced , steel fibre and reinforced
非加筋钢筋和加筋混凝土检查井和检查室 |
| 6. | Cast iron manhole top
铸铁检查井盖 |
| 7. | Impact of inspection chamber covers of urban road upon driving and the precautionary method
道路检查井盖对行车的影响及预警方法 |
| 8. | Concrete manholes and inspection chambers , unreinforced , steel fibre and reinforced - part 2 : national specification
非加筋钢筋和加筋混凝土检查井和检查室.第2部分:国家规范 |
| 9. | The thesis also makes a full illustration on the optimization of sewage pipe net which consists of the optimization on pipe connection in examing well
污水管网优化设计也包括管道在检查井内连接时的优化,本文也做了详尽阐述。 |
| 10. | Based on the preferable comparability of lithology between homogeneous core used in lab lest and that in strongly water washing part of inspection wells , forming condition of displacement efficiency in strongly water washing part of pressure coring inspection wells in waterflooded area has been analyzed , and reasons for the difference of displacement efficiency between pressure coring and in - house waterflood test have been discussed
摘要基于室内实验采用的均质岩心与检查井强水洗段岩性物性较好的相似性,通过对水淹区密闭取心检查井强水洗段驱油效率形成、室内水驱油模拟条件的分析,指出了密闭取心与室内水驱油实验驱油效率差别的原因。 |
