The study of AZ91 magnesium alloy on thermal diffusion coats;
AZ91镁合金热扩渗涂层的研究
The thermal diffusion process is one of the research hotspots in the realm of materials surface strengthening.
热扩渗工艺是材料表面强化领域的研究热点之一,根据渗剂在工作温度下的物质形态的不同,热扩渗工艺可分为固体热扩渗、液体热扩渗、气体热扩渗、等离子体热扩渗和复合热扩渗。
The measuring thermal diffusivity of film materials by laser photoacoustic backing exciting technique;
利用激光光声技术测量薄膜材料的热扩散率
Theoretical study on thermal diffusivity measurement of semi-transparent materials by the flash method;
闪光法测量半透明材料热扩散率的理论研究
Measurement of thermal diffusivity of SiO_2 thin films using AC calorimetric method;
交流量热法测量SiO_2薄膜的热扩散率
K7[CrCa(OH2)W11O39] was synthesized by a direct method and thermal diffusing permeation of Gd to the sample was studied with the solid-gas interface reaction.
经我们的研究证明[9-14],采用稀土热扩渗的方法,不仅提高了样品的稳定性,而且其导电能力显著提高,扩大了应用范围。
K_7CrMnW_(11)O_(39) was synthesized in a direct method and thermal diffusing permeation of Gd to the sample was studied with the solid-gas interface reaction.
采用直接法合成了K7CrMnW11O39,利用固-气界面反应,研究了Gd对所合成样品的热扩渗。
The XAFS result shows that the annealing treatment at 550 ℃ for the Si-capped Ge quantum dots can hardly affect the thermal diffusion between Ge and Si atoms.
XAFS结果表明,生长的Ge量子点样品覆盖Si层后在550℃温度退火,对Ge/Si之间的热扩散混合的影响较小。
In order to realize efficient conversion of methane,thermal diffusion column reactor was used to dehydrogenative coupling of methane.
为了实现甲烷的有效转化,使用热扩散管反应器进行了甲烷的脱氢偶联反应。