1) strengthening
补强结果
2) reinforce
补强
1.
Finite element analysis of the glass fiber reinforced plastic of the outer corrosive pipeline;
外腐蚀管道玻璃钢补强有限元分析
2.
Design and construction of pressure-groutedreinforcement for drilled pile;
钻孔桩压力灌浆补强的设计与施工
3.
The optimum reinforcement in silicon rubber is ~obtained when added with 35~40 g untreated silica nanoparticle per 100 g rubber.
气相法制备的纳米二氧化硅是补强高温硫化硅橡胶的最好填料。
3) reinforcing
补强
1.
Study on reinforcing NBR by oligomer ester 12-Ⅱ;
齐聚酯12-Ⅱ补强丁腈橡胶的研究
2.
Application of structural reinforcing member for steel panel in automotive industry;
薄板补强胶片在汽车工业中的应用
3.
Correcting,Reinforcing and Preventing Measure for Inclining of the Prestressed Concrete Pipe Foundation;
砼预应力管桩基础倾斜纠偏、补强及预防
4) reinforcement
补强
1.
Evaluation on the reinforcement designing method of the pipe connected flatly and neatly with the big opening of spherical shell;
球壳大开孔平齐接管补强设计方法评价
2.
The feasibility study of adopting complex material reinforcement on instersection gas pipeline and expressway;
输气管线与高速公路交叉段采用复合材料补强的可行性研究
3.
Discussion on large opening reinforcement in absorber;
吸入塔塔体大开孔补强设计探讨
5) strengthening
补强
1.
Application of high pressure jet grouting technique in pile foundation strengthening of bridge;
高压旋喷注浆在桥梁桩基补强中的应用
2.
Comment on the application of SFC in strengthening the bridge deck;
浅谈钢纤维混凝土在桥面补强中应用
3.
Design and construction of earth dam overflow face concrete strengthening in cold area;
严寒地区溢流面混凝土补强设计与施工
6) strengthen
补强
1.
Being high in strength, light in weight, long in life, and easy to be used in construction, carbon fibre materials are often used for strengthening various structures.
碳纤维材料用于补强加固,具有强度高、重量轻、寿命长、施工性好等特点。
2.
This thesis introduces one method for foundation strengthen-jet grouting technology for double pipes and double mixing liquid in designing and construction.
文中介绍了在高层建筑施工过程中发现地基承载力不均匀时的一种地基补强方法———双管双液注浆技术的设计及施工。
3.
The technology condition of concrete bridge s maintenance and reinforcement, many faults of concrete bridge,technology approaches and ways for strengthening and reinforing the concrete bridge which cannot meet the bearing capacity demand,and principles for choosing the strengthening and reinforcing ways are discussed and explicated.
分析了多种混凝土桥梁常见的缺陷 ,详细介绍了不能满足交通承载能力要求的混凝土桥梁的补强加固技术、方法和选用补强加固方法的原则 ,对桥梁加固方法的选用具有参考价
参考词条
补充资料:测试结果可接受性的检查和最终测试结果的确定
测试结果可接受性的检查和最终测试结果的确定
check of the acceptability of test results and determination of the final test result
C凡(3)二3.3d,时,取此3个结果的平均值作为最终侧试结果;否则取它们的中位数作为最终测试结果。。,为重复性标准差(即在重复性条件下所得侧试结果的标准差)。 在口田T 11792一1989中还对重复性和再现性条件下所得侧试结果可接受性的检查方法和最终测试结果的确定做了详细讨论和规定。(马毅林)ceshi 11叩uo kejieshCxjxing d6 iiancha he zuizhong ceshi】i闪旧de que心ing测试结果可接受性的检查和最终测试结果的确定(checkof山eac,ptability of test,ults助ddsterminationofthefi耐testresult)在商品检验中进行一次测试的情形不多见,当得到一个测试结果时,所得结果不可能直接与给定的重复性标准差作可接受性的检查。对测试结果的准确性有任何疑问时都应再进行一次测试。所以,对两个测试结果进行可接受性的检查是一般的情况。 可接受性的检查,实际上是一种统计检验。任何两个测试结果只要能通过可接受性的统计检验即可认为是一致的,均可接受。比如,在重复性条件下,所得结果之差的绝对值(下称绝对差)不超过相应的重复性限r(见重复性和再现性)的值,则认为两个结果是一致的,均可接受;如果两个侧试结果的绝对差超过r,则认为它们是不一致的,必须增加测试。 按国家标准《测试方法的精密度在重复性或再现性条件下所得测试结果可接受性的检查和最终测试结果的确定》(GBIT 1 1792一1989),在重复性条件下,如果两个测试结果的绝对差不超过r的值,可取两个侧试结果的平均值作为最终测试结果。如果两个结果的绝对差超过r的值,并且测试费用较低,须再做两次测试。当4个结果的极差(即其中的最大值与最小值之差)不超过相应的临界极差c,瓜(4)二3.6a,时,取4个结果的平均值作为最终测试结果。如果两个结果的绝对差超过r的值,并且测试费用较高时,只须再作一次测试。当3个结果的极差不超过相应的临界极差
说明:补充资料仅用于学习参考,请勿用于其它任何用途。