| 1. | Valves - shell design strength - experimental method
阀门.外壳设计强度.实验方法 |
| 2. | Valves - shell design strength - part 3 : experimental method
阀门.外壳设计强度.第3部分:实验方法 |
| 3. | Industrial valves - shell design strength - tabulation method for steel valve shells
工业阀门.外壳设计强度.钢制阀门外壳的列表法 |
| 4. | Industrial vales - shell design strength - calculation method for steel valve shells
工业阀门.外壳设计强度.钢制阀门外壳的计算方法 |
| 5. | Industrial valves - shell design strength - part 1 : tabulation method for steel valve shells
工业用阀.外壳设计强度.第1部分:钢阀外壳的列表方法 |
| 6. | Industrial valves - shell design strength - part 2 : calculation methods for steel valve shells
工业用阀.外壳设计强度.第2部分:钢阀外壳的计算方法 |
| 7. | Industrial valves - shell design strength - part 1 : tabulation method for steel valve shells ; german version en 12516 - 1 : 2005
工业用阀.外壳设计强度.第1部分:钢阀外壳用造表方法 |
| 8. | Industrial valves - shell design strength - part 2 : calculation method for steel valve shells ; german version en 12516 - 2 : 2004
工业用阀.外壳设计强度.第2部分:钢阀外壳的计算方法 |
| 9. | Standard practice for laboratory preparation of chemically grouted soil specimens for obtaining design strength parameters
达到设计强度参数的化学灌浆土壤样品的实验室制备标准规程 |
| 10. | However , the design strength is reduced considerably though the use of a resistance factor of 0 . 7 , 0 . 8 , and 0 . 6 if the intent is to allow such panel zone distortions to occur all
节点域的抗剪性能集中表现为节点域的厚度,在各国规范中,对厚度都有明确的规定。 |
