Critical Technique and Design Method of Test Data Acquisition System for Centrifugal Shaker

Yong Zhi Wang; Xiao Ming Yuan; Hao Hua Huang; Rui Sun

doi:10.4028/www.scientific.net/AMR.430-432.1898

Paper Titles

Intelligent Grain Storage Measurement System Design and Research
p.1881

A Novel Method of Electrical Discharge Machining in Gas Gap State Control
p.1886

The Finite Analysis of the Piezoelectric Shell Stack Transducer
p.1890

Dynamic Characteristics Analysis of Supercavitating Vehicle Structure with Stochastic Parameters
p.1894

Critical Technique and Design Method of Test Data Acquisition System for Centrifugal Shaker
p.1898

Comparative Study of Gobi Soil Subgrade Settlement Forecasting Methods for Double Line 2 of Lanzhou-Xinjiang Railway
p.1902

Autoclaved Fly Ash-Lime Brick Wall of the Proposed Shear Strength Formula
p.1906

A System’s MTTR Allocation Method Based on the Time Factors
p.1910

Reliability Analysis of Hybrid Actuation Based on GSPN
p.1914

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 430-432Critical Technique and Design Method of Test Data...

Critical Technique and Design Method of Test Data Acquisition System for Centrifugal Shaker

Abstract:

For soil is a complicated material with mechanical properties close ties with the stress condition it suffered, centrifugal shaker shows great superiority to the research of soil dynamics and geotechnical earthquake engineering. Currently only two large centrifugal shakers exist in USA and Japan respectively, while no one has been established in China, and practically the construction of centrifugal shakers is still in an exploratory stage throughout the world, remains many difficulties. Test data acquisition system as an important part of a centrifugal shaker certainly has some critical techniques and difficulties. This paper firstly analyses the special function and critical techniques of test data acquisition system for dynamic centrifugal model tests, then proposes a design method and points out its advantages, in order to give guidance for the construction of centrifugal shakers, especially large centrifugal shakers.