现场载荷试验 meaning in English
field loading test
Examples
- Finally , a field static load test of a engineering case is introduced and the test results and the calculation results are compared
文末介绍了一个工程实例的现场载荷试验,并与理论计算值进行了对比。 - According to the in - situ load tests and the finite element analysis , the effects of different reinforcement parameters on the gravel cushion are investigated in detail
本文主要通过现场载荷试验和有限元分析法,探讨了不同加筋参数对土工筋带加筋碎石垫层工作性状的影响。 - Abstract : on the basis of chaotic model , this paper discusses the reasonable identification of relativistic deformation on ground capacity in plate loading test according to the result of the test
文摘:以混沌理论模型的分析值为基础,以现场载荷试验的结果为依据,对载荷试验法确定地基承载力时相对变形值的合理取定进行了论述 - Referring to the current study of cast - in - situ piles with expanded branches and plates and methods of pile foundation analysis , the paper makes a thorough research on the bearing and deformation behavior of vertically loaded piles with expanded branches and plates
本文基于已有的挤扩支盘桩研究成果及桩基荷载传递理论,通过现场载荷试验、荷载传递法和有限单元法,对竖向荷载作用下挤扩支盘桩单桩和群桩的承载变形特性分别进行了研究。 - In view of bearing capacity of the elastoplastic theory analysis , the author made a comparison between the achieved bearing capacity limit load pi / 4 of round base ( space problem ) and the limit load pi / 4 of bar groundwork foundation design ( plane problem ) from soil mechanics at home and abroad as well as foundation criterion , and explained why the value of formula in present design criterion from soil mechanics is inclined to be conservative . in the light of the author ' s many years experience of vibration test on the spot and the research work of relevant projects , the author worked over the dynamic pile testing of the bearing capacity of foundation and batholith , and gathered the parameter of dynamic analysis and testing . the author also talked over the difficult point of pile foundation design criteria in present batholith engineering world , i . e . the confirmation of batholith bearing capacity of pile end , from the following aspects : a ) confirmation of single axis counter - pressure strength of rock in house ; b ) f . e . m calculation of elastoplastic model ; c ) calculation of soil mechanics ; d ) deep well load test
然后,对岩土工程领域至今尚未解决,甚至不为人注意的考虑地基变形的地基承载力问题进行了实用化的探讨,提出了考虑地基变形的地基承载力上程计算方法;对基于弹塑性理论分析的地基承载力国内尚未见报道的空间问题得到了圆形基础(空间问题)的承载力界限荷载p _ ( 1 / 4 ) ,并与国内外土力学专著及地基基础设计规范中的条形基础(平面问题)的界限荷载p _ ( 1 / 4 ) ,进行了对比,从而定量上解释了目前设计规范引用土力学承载力公式值偏于保守的这一情况;根据本文作者多年从事现场地基工程振动试验及相关课题的研究工作,本文以截头锥模型模拟地基,对地基(岩基)承载力的动测法进行了研究,为各类地基(包括岩基) ,汇总了动力分析和检测川的参数:针对日前岩土工程界应用桩基设计规范中的难点? ?桩端岩基承载力的确定问题,从岩石室内单轴抗压强度确定、基于弹塑性模型的有限单元法计算、土力学计算及深斤载荷试验四方面进行了深入讨论;本文作者根据多年现场载荷试验的工程实践,对深井荷试验装置的核心部分? ?反力装置,设计了侧壁支撑反力加载系统,该加载系统具有实用、简便、稳定及安个等优点。