2) compressive strength
耐压强度
1.
The effects of different temperatures on compressive strength and bulk density were studied.
主要探讨了不同的烧结温度对试样的耐压强度和体积密度的影响。
2.
A test is done on pre-baked anode made from calcined coke in aspects of apparent density,real density,porosity,resistivity of powder,compressive strength,which shows compressed petroleum coke improves its chemical and physical performances.
采用压密煅烧石油焦制成预焙阳极,通过体积密度、真密度、显气孔率、电阻率、耐压强度、透气度的测试,结果表明,压密石油焦能显著地改善预焙阳极的理化性能,使预焙阳极制造过程中沥青加入量控制在13%,预焙阳极的体积密度达到1。
3.
In order to save the required energy for grinding the slag, the compressive strength of the slag is reduced by inducing cracks in it with the help of microwave.
为研究引发的裂纹对碾磨渣的影响,对经过微波处理的高钛高炉渣进行了耐压强度测试。
3) crushing strength
耐压强度
1.
These physical properties were correlated with the crushing strength of unglazed-fired tiles.
论述了从塞拉利昂不同地区采集的6个粘土试样的一些物理性能,这些物理性能与无釉烧结地砖的耐压强度有一定的关系。
4) cold crushing strength
耐压强度
1.
Support vector machine, a new computational method that have powerful prediction ability and can avoid over-fitting, has been used for optimizing processing parameters (content, particle size, and firing temperature of added silicon) in the preparation of alumina-carbon material and establishing the model of their influence on cold crushing strength of samples.
通过实验数据处理,建立了金属硅粒度、含量和热处理温度与烧后冷态耐压强度的数学模型。
2.
Based on the production data of 1997 s,the regression equation of the relationship among cold crushing strength,volume density and granular conformation of magnesitecarbon bricks is obtained.
利用1997年生产数据建立数学模型,得到镁碳砖的耐压强度、体积密度与颗粒组成关系的回归方程,并利用回归方程进行预测,为生产高强度镁碳砖,提高原料利用率,选择优良配方,提供了理论依
5) compression strength
耐压强度
1.
The results show that: the fillers of SiO_2 based investment consist of SiO_2,Al_2O_3 and MgO,and the binder is NH_4H_2PO_4;for SiO_2 based investment,the bulk density and the compression strength decrease,the apparent porosity and the thermal expansion increase,when the specimens are heated to 900 ℃;the fil.
结果表明:氧化硅系包埋料的骨料是氧化硅、氧化铝、氧化镁,结合剂为磷酸二氢铵,其900℃煅烧后显气孔率增加,体积密度下降,耐压强度降低,热膨胀增大;氧化铝系包埋料的骨料是氧化铝和氧化镁,结合剂为磷酸二氢铵,其900℃烧后显气孔率增加,体积密度下降,热膨胀变化不大;氧化镁系包埋料的骨料是氧化镁和氧化铝,结合剂是铝酸钙水泥,其900℃烧后耐压强度明显降低,热膨胀明显增大。
2.
According to the geometrical structure of the elbow-rubber hose reinforced by spiraled cords threads, its calculation formulation of compression strength is derived on the base of the stress analysis with the inner-pressure.
在肘形橡胶软管内压作用下的应力分析的基础上,根据其几何结构,推导出帘线缠绕增强肘形橡胶软管耐压强度计算公式,分析结果表明:帘线缠绕增强肘形橡胶软管弯管段爆破压力低于直管段爆破压力,因此其耐压强度只需根据弯管段爆破压力进行评估。
6) bursting pressure
耐压强度
1.
Comparison study of bursting pressure after laser and artificial suturing vascular anastomosis;
激光和缝线血管吻合术对血管吻合口耐压强度影响的对照研究
2.
AIM: To observe the effect of binding on the mechanical characteristics of bursting pressure and tensile strength after laser vascular anastomosis with binding.
目的 :观察粘合剂对激光血管吻合的耐压强度与抗拉强度等力学特性的影响。
补充资料:耐压强度
耐压强度
crushing strength
naiya qiongdu耐压强度(erushing strength)衬火材转在一定温度下,单位面积上所能承受的极限载荷。耐压强度是衡量耐火材料质量的重要性能指标之一,间接地反应出制品的组织结构,如致密性、均匀性、烧结性等。通常分为常温耐压强度和高温耐压强度。常温耐压强度是指制品在室温下测得的数值;将试样加热至某一指定温度进行加压试验,所取得的结果称为该温度下高温耐压强度。 制品耐压强度的高低主要取决于自身的材质类别,但制造工艺水平对耐压强度值有很大影响。 中国国家标准对不同用途的耐火材料的耐压强度值作了规定。常用致密耐火制品的常温耐压强度值(MPa)如下:高炉用粘土砖大于49.0,热风炉用拈土砖大于19.6,玻璃熔窑用大型粘土砖大于34.3,一般用途高铝砖大于49,o,热风炉高铝砖大于39.2;电炉盖用高铝砖大于58.8,焦炉硅砖大于19.6;玻璃熔窑用硅砖大于24.5,普通镬砖大于39.2,平炉用镁铝砖大于29.4;镁格砖大于24.5。测定常温耐压强度的方法,中国国家标准《致密定形耐火制品常温耐压强度试验方法》(GB5072)规定,从耐火制品上切取正方体或圆柱体试样,在压力试验机上,按规定的加压速率,对试样加压,直至其破坏,记录最大压力值,计算出单位面积承受的压力,单位MPa。测定不定形耐火材料的耐压强度时,必须先按试样制备方法的标准规定制备试样。测定高温耐压强度时,压力试验机应附设高温加热炉。试样在炉内按规定升温速率加热,到达规定温度,并保温一定时间后,对试样加压,直至其破坏,其余与测定常温耐压强度方法相同。国际标准《致密定形耐火制品—常温耐压强度的测定》第1部分:无衬垫仲裁试验(150 10059一1),与中国标准GB5o72主要差异为试验时,试验机加压板与试样之间,不准加衬垫.对于定形隔热耐火制品常温耐压强度的测定,中国标准GB3997·2与国际标准1508895等效。 (王适荣)
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