1) adjacent waters area
过渡性水域
1.
Composition and distribution of Cartilaginous fishes in the adjacent waters area of main Islands and reefs of South China Sea;
南海重要珊瑚礁过渡性水域软骨鱼类的组成与分布
2) Transition region
过渡区域
1.
Due to the non balance of the transition region s common interests, there are some defects in its adjustment system itself.
过渡区域由于其共同利益的非均衡性而使协调机制本身存在较大缺陷 ,因此 ,在调整过渡区域经济协调方式时必须在遵循发展、互利和协商、自主和平等的原则基础上作好以下几方面的制度安排 :( 1)以市场为基础构建经济协作区 ;( 2 )充分发挥过渡区域优势 ,建立和完善发展极 ,形成纵横交错的产业带网络 ;( 3 )建立和完善过渡区域市场 ,推动过渡区域经济的发展 ;( 4 )建立新型的区际利益协调机制 ,充分发挥过渡区域经济运行协调机制的作用。
3) transition zone
过渡区域
1.
By testing and analyzing the interface of cladding plate(SA266-304) using by pressure vessel, it is found that there are still micro defects such as“seam”,“hole” and “transition zone” etc for the cladding plate which is up to the standard.
通过SA2 6 6 - 30 4压力容器用爆炸焊接复合板界面测试分析 ,发现符合国家标准的复合板由于界面仍存在“缝隙”、“空洞物”、“过渡区域”等几种微观缺陷 ,使得复合板在后续热处理、轧、校、卷以及使用过程中易出现开裂失效。
2.
The collision effects on the detonation transition zone were investigated.
采用二阶精度NND差分格式和改进的二阶段化学反应模型模拟了爆轰波与激波的对撞过程,研究了不同强度入射激波对爆轰过渡区域的影响。
4) transitive horizon
过渡时域
1.
The closed-loop stability isguaranteed by the added weighted polynomials in the performance index and the conditionthat the predictive horizon is greater than the transitive horizon plus the control horizon.
讨论加权广义预测控制算法(WGPC),通过定义过渡时域和在性能指标中引入加权多项式,限制预涮时域大于控制时域与过渡时域的和,保证了预测控制算法的稳定性;给出了控制增量的表达式。
5) ILMI
过渡性局域管理界面
6) transition flow
过渡水流
1.
Experimental studies of model show that when the base slope of spillways changes within the range of 40 degrees to 60 degrees,the water-wing nearly exists in the whole nappe flow,even continues to the transition flow.
模型试验表明:当斜坡角度为40°~60°时,水翅几乎存在于整个跌落水流范围内,甚至持续到过渡水流。
2.
Model experimental studies indicating that when the base slope of spillways changes within the range of 40 degrees to 60 degrees,the water-wing nearly exists in the whole nappe flow,even continuing to the transition flow.
模型试验表明:当斜坡角度为40°~60°时,水翅存在于几乎整个跌落水流范围内,甚至持续到过渡水流;随着溢洪道底坡的增大,水翅存在的流量变化范围增大、高度增加;随着台阶尺寸的减小,水翅高度降低,所存在的流量变化范围缩小。
3.
7°,19° and 30°) shows that energy dissipation ratio under skimming flow,transition flow or nappe flow,would not be confined by the relative critical water depth on weir (y_c/h≤2.
5时,滑行水流、过渡水流和跌落水流消能率的大小不受堰上相对临界水深的限制,而只是相对坝高Hdam/yc和斜坡角度的函数,即随坡度变缓或相对坝高Hdam/yc增加,消能率增大;当坝坡相同坝高相等时,滑行水流、过渡水流和跌落水流之间的消能率差异很小,并且其消能率大小与台阶个数无关;此外,文中还给出了计算消能率的经验公式。
补充资料:连续性与非连续性(见间断性与不间断性)
连续性与非连续性(见间断性与不间断性)
continuity and discontinuity
11an父ux泊g四f“山。麻以角g、.连续性与非连续性(c。nt,n琳t:nuity一)_见间断性与不间断性。and diseo红ti-
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条