Test the concept of aluminum-alloy casing with ablative lining.
测试的概念,铝合金套管与烧蚀内层。
Effect of ablative cooling on specific impulse of rocket engine.
烧蚀冷却对发动机比冲的影响。
If treatment is desired, ablative or excisional modalities are appropriate.
如确实需要治疗,可进行消融或切除。
A carrier substrate is thereafter attached to the laser-ablative adhesive layer.
载体衬底随后连附到激光烧蚀粘合层。
This generates a plasma arc that evaporates material from the ablative device (50).
这产生使烧蚀装置(50)的材料蒸发的等离子弧。
The quenching system includes an ablative device (50) positioned within a chamber (44).
抑制系统包括位 于腔(44)内的烧蚀装置(50)。
The thermodegradation of GS-401 ablative silicone resin was studied with TG, DTA and IR.
我们用热重、差热和红外光谱法研究了GS-401烧蚀有机硅树脂的热降解反应。
Ablative laser propulsion is one of the major branches in the study field of laser propulsion.
烧蚀模式激光推进是激光推进技术的一个重要研究领域。
The elements which affected the ablative properties of silicone rubber heat shields were discussed.
探讨了影响硅橡胶热防护材料烧蚀性能的因素。
An end of the ablative device (50) includes an opening (58) that receives a stationary contact (22).
烧蚀装置(50)的端部包括开口(58)以接纳静止接触部(22)。
Excimer laser has excellent ablative and etching performances to both organic and inorganic materials.
准分子激光对无机和有机材料都有着很好的消融和蚀刻性能。
The effects of filler fiber and flame retardant on ablative performance of EPDM insulation are studied.
研究了填充纤维、阻燃剂种类及用量对EPDM绝热层耐烧蚀性能的影响。
The experimental results show that different kinds of insulation have different charring ablative rates.
实验表明:不同材料的绝热层在加速度作用下烧蚀率明显不同。
The low density ablative materials studied here have basically reached the space grade level as a result.
研制的低密度烧蚀材料基本达到了空间级材料水平。
This paper introduces ablative thermal protection structure design of a return module of some satellites.
介绍弹道式再入航天器烧蚀防热结构设计,文中说明了方案、材料选择、设计和分析计算。
A C4 grind tape and a laser-ablative adhesive layer are formed on a front side of a semiconductor substrate.
在半导体衬底的正面形成C4研磨带和激光烧蚀粘合层。
The chemical non equilibrium viscous shock layer flows over a teflon ablative wall are calculated numerically.
本文对有泰氟隆烧蚀的化学非平衡粘性激波层流场进行了数值模拟。
Hexagonal XF microlens: High speed non-ablative fractional resurfacing with the new XF (extra fast) microlens.
六角xf的微透镜:高速,非剥脱新的XF(多余快速)微透镜的分数重铺路面。
Conclusion The volume of thyroid residue and ablative dose are the main factors for the efficacy of 131I thyroid ablation for DTC.
结论在分化型甲状腺癌患者的131I清甲治疗中,残余甲状腺大小和131I治疗剂量是影响清甲效果的主要因素。
This paper discusses the raw materials and process technology of the double cone ablative shield made from resin matrix composites.
本文对树脂基复合材料双锥防热套的原材料选择和成型工艺进行了研究。
The practicability of detecting the ablative performance of the phenolic composite by thermal analysis is discussed with experiments.
通过试验论述了热分析检测酚醛类高分子材料烧蚀性能的可能性。
The ablative property requirements and the studies on the insulation layer of solid rocket engine in oxidizer rich environment were presented.
介绍了富氧环境下固体火箭发动机对绝热层性能的要求,以及在该特殊条件下对绝热层所开展的研究工作。
The mass loss of ablative material caused by physical, chemical and mechanical factors under high temperature affects properties of the material.
烧蚀材料在高温环境中因物理、化学和力学因素造成质量损失,影响其性能。
Abstract: Objective: To investigate the sensory recovery process of free flap in the oral defects of oral cancer patients after ablative surgery.
摘要目的:考察游离皮瓣修复口腔癌术后口腔缺损的感觉恢复情况。
Conclusion DWI provides the better capability to detect viable tumor of ablative therapy than with conventional MRI, and it is deserved to be applied.
结论DWI对肝脏消融治疗后存活肿瘤的检出能力高于常规mri,具有一定的应用价值。
The test results of non-ablative ultra-high temperature ceramic materials(UHTC) in one of the plasma wind tunnels of CARDC are introduced in this paper.
介绍了在CARDC等离子体风洞中开展的非烧蚀型防热材料超高温陶瓷(UHTC)的试验研究结果。
The high pressure plasma is created when transient, intensity laser pulse impinges on a black ablative layer painted on the surface of the target material.
激光微冲击成形就是利用脉冲激光产生的高压等离子体的冲击力效应,使超薄板材产生塑性变形的新技术。
Obtain general evaluation, comparisons of pre - and post-operation visual quality and symptoms by the same clinician 1, 3, 6 months after ablative surgery.
术后第1、第3、第6个月由同一名医师询问患者术后总体评价、术后与术前最佳矫正视力时的视觉质量及视觉症状。
The usage, types and methods of evaluation of ablative materials are explained and the ablative performances of polymers in ablative materials are compared.
文中对烧蚀材料的类型,使用原则和评价方法作了说明。
Finally, a more accurate calculation result is obtative with a full consideration of the coupling term in both ablative equation and heat-conduction equation.
利用烧蚀和导热计算方程组中二者的结合部,通过充分耦合,获得了更准确的预示计算结果。
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