The influence of melting temperature and inclusion on hydrogen content is made.
同时也研究了夹杂物尺寸和熔炼温度对含氢量的影响。
It was found that poly (L-lactide) is thermally unstable above its melting temperature.
实验表明在高于聚合物熔点温度以上,聚丙交酯表现出热不稳定性。
When one reaches the melting temperature, particles break free as the material melts away.
当一个到达熔点时,物体熔化的同时粒子自由破裂。
Results show that thickness of steel solidification shell decreases with higher melting temperature.
保护渣熔化温度越高,钢凝壳厚度越小。
This high pressure was the cause of higher melting temperature and increased cooling time for plastic part.
这种高压力较高的熔融温度,增加冷却造成塑料的一部分时间。
It is predicted th at there exist minimum critical size and lowest melting temperature for metallic nanoparticle.
并根据上述函数得出了金属晶体纳米微粒存在的最小临界尺寸表达式与最低熔化温度表达式。
The DSC results showed both the melting temperature and crystallization temperature of the grafting products were decreased.
DSC研究表明辐照接枝产物的熔融温度和结晶温度均降低。
For a metal heating at the same heating rate, its melting temperature will decrease with the increase of the rate of defect.
在相同升温速率下,随缺陷率增加,金属熔点有下降趋势。
The melting temperature of PA6/PTFE blends increases with PTFE content, while the melting enthalpy decreases with PTFE content.
PTFE共混物的熔融温度随PTFE含量的增加而升高,熔融焓却随PTFE含量的增加而降低。
Finally the melting temperature ranges of different components in the sample are tested by a differential heat analysis scanner (DSC).
最后通过差热分析扫描仪(dsc)测试样品各成分的熔融温度范围。
The melting temperature and its range of the converter slag containing vanadium and titanium oxides (different contents) were measured.
测定了钒钛钢渣在不同组元含量条件下的熔化性温度及熔化区间。
The influence of melting temperature, melting time, crystallization temperature and cooling mode on form and size of nylon 66 was studied.
研究了熔融温度、熔融时间、冷却方式及结晶温度对尼龙66球晶形态和大小的影响。
If the nonmetallic inclusions in alloying steels are of low melting temperature, the fatigue life of steels can be significantly improved.
钢中非金属夹杂物绝大多数为较低熔点夹杂物,可以显著改善钢材的抗疲劳破坏性能。
Finally, the surface of this meteorite melted lump of metal spots there may be landed during the metal melting temperature in stone surface.
最后,这块陨石表面还有金属熔化的块状斑点,可能是降落过程中的高温使金属熔化在石头表面。
Comparing with fluoride eutectic fluxes, it possesses the advantages as: low melting temperature, good wetting ability, easy to prepare, etc.
与氟化物共晶型钎剂相比,有熔点低、流动性好、制备方便等优点。
According to the result of the DSC test, the melting temperature range of the fiber became narrow as the increasing of heat treatment temperature.
通过DSC发现随着热处理温度的升高纤维的熔融温度范围变窄。
The molecular dynamics simulation method has been used to study the relation between the melting temperature and the cohesive energy of Pb nanofilms.
本文利用分子动力学方法研究了铅纳米薄膜的熔化温度与结合能的关系。
The copy principle of DNA is studied by using fractal and fractal dimension theory and hydrogen-bond melting temperature in BDNA copolymers calculated.
利用分形和分维理论研究DNA的复制机理并计算BDNA共聚物中氢键的解链温度。
The influences of lithia content on the melting temperature, mechanical properties and thermal expansion coefficient of low temperature frit were studied.
本文研究了氧化锂加入量对低温熔块的熔融温度、力学性能、热膨胀系数的影响。
Nb-based alloys are important high temperature structural materials because of their high melting temperature, corrosion resistance, and high temperature strength.
铌及铌合金以其熔点高、耐腐蚀和良好的高温强度成为重要的高温结构材料。
The former is characterized by lower viscosity , lower crystallization temperature, lower softening and melting temperature, proper basicity and higher melting rate.
薄板坯连铸保护渣应具有较低的粘度,较低的结晶、软化及熔融温度,合适的碱度以及较快的熔化速度。
The melting temperature, melting heat, static and dynamic mechanical properties of PA6/PTFE blends and PA66/PTFE blends are experimentally investigated in this paper.
研究了PA6/PTFE和PA66/PTFE共混物的熔融过程的热学性能、动态力学性能和吸水前后的静态力学性能。
The coefficient of linear expansion of the body and glaze, the melting temperature range, the whiteness, the microhardness and the heat stability of glaze were tested.
测试了基体和熔块的线膨胀系数、釉的熔融温度范围、釉面的白度、显微硬度和热稳定性等性能。
At the same time, it is shown that the initial melting temperature was related not only to the rock composition, but also to the condition during the formation process.
同时,由实验表明,岩石初熔温度除与岩石成分有关外,还与岩石实际形成条件有密切联系。
With increasing melting temperature, the cold crystallization peak temperature increases, the crystallization peak strength of PEEK weakens and the peak width increases.
熔融温度升高时,聚醚醚酮的结晶峰强度减弱,峰宽增加;而冷结晶峰温度提高。
Melting temperature of the modified PVA indicated that the melting temperature of PVA with the alcoholysis of 88 % increased with the increasing of the molecular weight.
改性pva塑化温度的研究表明,醇解度为88%的PVA,随相对分子质量的增加塑化温度升高。
It is used to adjust content of manganese and copper element in different brand aluminium alloys as substitute of intermediate alloy, which can reduce melting temperature.
调整不同牌号铝合金中锰、铜元素的含量,用来代替中间合金,可降低熔炼温度。
It is used to adjust content of manganese and copper element in different brand aluminium alloys as substitute of intermediate alloy, which can reduce melting temperature.
调整不同牌号铝合金中锰、铜元素的含量,用来代替中间合金,可降低熔炼温度。
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