1) combined radiation and burn injury
放-烧复合伤
1.
Treatment for mice with minor gastrointestinal type combined radiation and burn injury;
轻度肠型放-烧复合伤救治的实验研究
2) combined radiation and burn injury
放烧复合伤
1.
Roles of cervical sympathetic ganglia block in the treatment of mice with combined radiation and burn injury;
颈交感神经阻滞对放烧复合伤小鼠的治疗作用
2.
Objective:To investigate the effect of SB on modulation of HPA axis and whole protection from combined radiation and burn injury in rat.
第一部分:颈交感神经阻滞对放烧复合伤大鼠HPA轴的调控及整体的保护效应 目的:探讨颈交感神经阻滞对放烧复合伤大鼠的整体保护效应及对HPA轴的调控。
3) Projectile-burn combined wound
弹烧复合伤
1.
Effects of resuscitation with Parkland formula on hemodynamics in projectile-burn combined wound in dogs with seawater immersion;
Parkland公式对海水浸泡弹烧复合伤犬血流动力学的影响
2.
Methods Projectile-burn combined wound in dogs with seawater immersion was modelled,14 dogs were randomized into two groups: projectile-burn combined wound with seawater immersion group (immersion group),Parkland formula resuscitation group (resuscitation group).
目的探讨Parkland公式复苏对犬弹烧复合伤并海水浸泡后血气及酸碱水平的影响。
4) burn-freeze combined injury
烧冻复合伤
1.
Objective:To observe the therapeutic effect of combined method on burn-freeze combined injury,by dissolving embolus,dilating blood vessel, giving high pressure oxygen and skin graft, so as to provide experimental basis for clinical therapy.
目的 :探讨以溶栓、扩血管、高压氧、植皮为主的综合性治疗家兔烧冻复合伤的疗效 ,为临床治疗提供依据。
5) seawater immersion
弹烧复合伤
1.
An experimental investigation of the effect of seawater immersion on endothelial cells in dogs sustained by burn-firearm combined injury;
弹烧复合伤后海水浸泡对血管内皮细胞影响的实验研究
6) burn-blast combined injury
烧冲复合伤
1.
Influence of seawater immersion on hemodynamics in dogs after burn-blast combined injury
海水浸泡对烧冲复合伤犬血流动力学的影响
补充资料:复合型耐烧蚀高分子材料
分子式:
CAS号:
性质:指在燃烧过程中,在热流作用下能发生分解、熔化蒸发、升华、碳化等化学或物理变化,借以消耗热量,阻止火焰传播,能起热保护作用的高分子复合材料。耐烧蚀复合材料包括升华型、熔化型和碳化型,其中后者是以碳纤维增强的酚醛树脂复合材料。根据耐烧蚀材料的相对密度可以分为:高密度耐烧蚀材料,指密度大于1的复合材料,如各种纤维增强塑料;低密度耐烧蚀材料系指以轻质填料为基质,以酚醛、硅橡胶为基体的复合材料。此类耐烧蚀材料在航空航天领域有重要意义。
CAS号:
性质:指在燃烧过程中,在热流作用下能发生分解、熔化蒸发、升华、碳化等化学或物理变化,借以消耗热量,阻止火焰传播,能起热保护作用的高分子复合材料。耐烧蚀复合材料包括升华型、熔化型和碳化型,其中后者是以碳纤维增强的酚醛树脂复合材料。根据耐烧蚀材料的相对密度可以分为:高密度耐烧蚀材料,指密度大于1的复合材料,如各种纤维增强塑料;低密度耐烧蚀材料系指以轻质填料为基质,以酚醛、硅橡胶为基体的复合材料。此类耐烧蚀材料在航空航天领域有重要意义。
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