电力勘测设计
電力勘測設計
전력감측설계
ELECTRIC POWER SURVEY
2015年
z1期
250-252
,共3页
击实试验%塑限%加水量差值%最优含水率%最大干密度
擊實試驗%塑限%加水量差值%最優含水率%最大榦密度
격실시험%소한%가수량차치%최우함수솔%최대간밀도
compaction test%plastic limit%difference of added water%optimum water content%maximum dry density
本文阐述了击实试验标准做法,通过室内轻型击实试验的工程实践,提出了无需测风干含水率、塑限含水率和计算每点的配水量,而是在起始配水量基础上用加水量差为40 ml水配制试样进行击实,并从理论上证明了其可行性,,通过该方法的改进,使得击实试验流程简化,易于操作,以期对土工试验人员有所帮助。
本文闡述瞭擊實試驗標準做法,通過室內輕型擊實試驗的工程實踐,提齣瞭無需測風榦含水率、塑限含水率和計算每點的配水量,而是在起始配水量基礎上用加水量差為40 ml水配製試樣進行擊實,併從理論上證明瞭其可行性,,通過該方法的改進,使得擊實試驗流程簡化,易于操作,以期對土工試驗人員有所幫助。
본문천술료격실시험표준주법,통과실내경형격실시험적공정실천,제출료무수측풍간함수솔、소한함수솔화계산매점적배수량,이시재기시배수량기출상용가수량차위40 ml수배제시양진행격실,병종이론상증명료기가행성,,통과해방법적개진,사득격실시험류정간화,역우조작,이기대토공시험인원유소방조。
In this paper, we discuss the basic theory of compaction test, and then show the idea that we need not to measure the water content by wind, plastic limit, and need not to compute the water added of every test point, but we can confect the sample according to 40ml difference of added water by showing several portable compact test examples of engineering. We prove the theory is feasible in order to predigest the test process, and help the staff of soil test easy to operate.
