1) compression-creep rate
压缩蠕变率
2) compression creep
压缩蠕变
1.
Compression Creep Behavior at High Temperature of 2618 Aluminum;
2618铝合金高温压缩蠕变行为研究
2.
Inversion of compression creep parameters of deep rock under rigid bearing plate
刚性承压板下深部岩体压缩蠕变参数反演
3.
At room-temperature,a series of experimental researches are carried out on the compression creep of expanded polystyrene(EPS)with three kinds of densities.
室温下,对3种密度的聚苯乙烯泡沫(Expanded polystyrene,简称EPS)进行了一系列单轴压缩蠕变实验。
3) compressive creep
压缩蠕变
1.
In order to evaluate the compressive creep behavior of expanded polystyrene (EPS), on the basis of the analysis of actruality research of the EPS compressive creep, the subsection creep curves were gained by applying the stepped isothermal method (SIM) to the investigation of compressive creep.
为了合理评估发泡聚苯乙烯(EPS)的压缩蠕变性能,在分析EPS压缩蠕变研究现状的基础上,将分级等温法(SIM)应用到EPS压缩蠕变研究中,得到EPS的分段蠕变曲线。
2.
A new measuring method of the compressive creep property of rubber has been proposed.
研究了橡胶压缩蠕变性能的测试方法,指出用金刚石单颗粒抗压强度计及改进的洛氏硬度计,可以精确地测量橡胶的压缩蠕变性能。
3.
The compressive creep behavior of the Al 2O 3 TiN composites was investigated in the temperature range 1 250 ̄1 400℃ and the applied stress range 10 ̄50 MPa.
研究了Al2O3TiN复合物在12501400℃、1050MPa应力范围的压缩蠕变特性。
4) creep compression
蠕变压缩
5) compression creep strength
压缩蠕变强度
1.
The anisotropy of compression creep strength in a nickel-base single crystal superalloy was investigated.
研究了镍基单晶高温合金压缩蠕变强度的各向异性。
6) compressional creep test
压缩蠕变试验
1.
Taking an airport s high embankment in the karst region of Guizhou as an example,the compressional creep test of sandy gravel as the filling material is studied.
以贵州某机场高填方边坡为工程背景,研究了碎石土填料压缩蠕变试验,研究表明,刚性侧限的压缩蠕变试验与大面积凹谷中的高填方体具有良好的相似性,两者可近似认为处于相同的应力状态,但试验得出的高填方体压缩沉降量较实测值小。
2.
By taking the embankment, with a height of 104 m, of Jiuzhai-Huanglong airport as an example, similar conditions of compressional creep tests simulating the high embankment using filling material of sandy gravel were investigated.
以九寨 黄龙机场104m高填方体为工程背景,研究了砂砾石填料压缩蠕变试验与高填方体的相似条件。
补充资料:压缩蠕变试验
分子式:
CAS号:
性质:在规定负荷下,测定材料压缩变形随时间而增加的试验。橡胶的蠕变有二个不同起因。(1)物理起因:橡胶是黏弹性体,外加应力和应变的影响不是瞬时的,会随时间而发展;(2)化学起因:橡胶受氧化作用,使橡胶分子链断裂或进一步交联。这就造成在恒定负荷下橡胶的应变会随时间而逐渐增大。
CAS号:
性质:在规定负荷下,测定材料压缩变形随时间而增加的试验。橡胶的蠕变有二个不同起因。(1)物理起因:橡胶是黏弹性体,外加应力和应变的影响不是瞬时的,会随时间而发展;(2)化学起因:橡胶受氧化作用,使橡胶分子链断裂或进一步交联。这就造成在恒定负荷下橡胶的应变会随时间而逐渐增大。
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