岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2013年
12期
3633-3640
,共8页
张立祥%罗强%张良%刘钢%魏永权%翁骏祺
張立祥%囉彊%張良%劉鋼%魏永權%翁駿祺
장립상%라강%장량%류강%위영권%옹준기
土压力传感器%匹配误差%硬土介质%非线性响应%修正方法
土壓力傳感器%匹配誤差%硬土介質%非線性響應%脩正方法
토압력전감기%필배오차%경토개질%비선성향응%수정방법
soil pressure transducer%matching error%high-modulus soil%nonlinear response%correction method
为掌握土压力传感器置于硬土介质中呈现的非线性响应特性,建立了传感器与土介质的相互作用模型,运用有限元分析了满足匹配误差稳定所需的传感器与土介质的模量比条件。进行了传感器的单体标定和级配碎石土介质标定试验,探讨了传感器非线性响应的主要影响因素。计算与试验表明,目前国内主流的双膜土压力传感器在量测硬土介质中的土压力时,由于模量偏小标定曲线非线性显著;土压力传感器单体标定曲线线性度较高且其模量基本稳定,表明土介质的模量变化是引起标定曲线非线性的主要因素;通过将传感器置于与使用环境相近的土介质中进行标定,并采用非线性修正可明显提高硬土介质中土压力量测的准确性。
為掌握土壓力傳感器置于硬土介質中呈現的非線性響應特性,建立瞭傳感器與土介質的相互作用模型,運用有限元分析瞭滿足匹配誤差穩定所需的傳感器與土介質的模量比條件。進行瞭傳感器的單體標定和級配碎石土介質標定試驗,探討瞭傳感器非線性響應的主要影響因素。計算與試驗錶明,目前國內主流的雙膜土壓力傳感器在量測硬土介質中的土壓力時,由于模量偏小標定麯線非線性顯著;土壓力傳感器單體標定麯線線性度較高且其模量基本穩定,錶明土介質的模量變化是引起標定麯線非線性的主要因素;通過將傳感器置于與使用環境相近的土介質中進行標定,併採用非線性脩正可明顯提高硬土介質中土壓力量測的準確性。
위장악토압력전감기치우경토개질중정현적비선성향응특성,건립료전감기여토개질적상호작용모형,운용유한원분석료만족필배오차은정소수적전감기여토개질적모량비조건。진행료전감기적단체표정화급배쇄석토개질표정시험,탐토료전감기비선성향응적주요영향인소。계산여시험표명,목전국내주류적쌍막토압력전감기재량측경토개질중적토압력시,유우모량편소표정곡선비선성현저;토압력전감기단체표정곡선선성도교고차기모량기본은정,표명토개질적모량변화시인기표정곡선비선성적주요인소;통과장전감기치우여사용배경상근적토개질중진행표정,병채용비선성수정가명현제고경토개질중토압역량측적준학성。
In order to grasp the nonlinear response characteristics of soil pressure transducer in high-modulus soil, based on the interaction of model of transducer with soil, the reasonable modulus ratio of transducer and soil medium was studied with FEM. And the main factors about nonlinear response of transducer was studied by monomer transducer calibration test and transducer calibration in graded broken stone medium. Based on the results of FEM and calibration test, some conclusions are drawn as follows. The modulus of domestic mainstream transducer is too low to satisfy the reasonable modulus ratio at present when used in high-modulus soil meadium, which leads to the significant nonlinear characteristics of calibration test curve. The monomer test curve is highly linear and the modulus of transducer is stable, which shows that the nonlinear characteristics of calibration test curve is mainly caused by the soil modulus’s change. The test precision can be significantly increased by calibrating the transducer in the same state soil as field test and correcting the calibration results nonlinearly.