1) Widening distraction osteogenesis
增宽牵引成骨
2) distraction osteogenesis
牵引成骨
1.
FEM analysis of tooth movement in area of distraction osteogenesis;
牙在牵引成骨区内移动的三维有限元分析
2.
Effects on the inferior alveolar nerve following distraction osteogenesis by varying the rate and at usual rate: a comparative study;
变速牵引与常速牵引成骨对下牙槽神经影响的比较研究
3.
Influence of distraction osteogenesis on rabbit inferior alveolar nerve by varying rate;
变速牵引成骨对兔下牙槽神经的影响
3) Distraction Osteogenesis
牵引成骨术
1.
Influence of Distraction Osteogenesis on Goat Inferior Alveolar Nerve by Higher Rate;
较大速率牵引成骨术对山羊下牙槽神经的影响
2.
Effects of mandibular distraction osteogenesis on rabbit inferior alveolar nerve;
下颌骨牵引成骨术对兔下牙槽神经的影响
3.
Distraction osteogenesis for treatment of unilateral temporomandibular joint ankylosis and secondary OSAHS in children:Report of 4 cases;
牵引成骨术治疗儿童单侧颞下颌关节强直伴OSAHS4例报道
4) sutural distraction osteogenesis
缝牵引成骨
1.
PartⅠEffect of Aging on Mechanical Properties of Facial SururesObjective The aim of the study is to determine the effect of aging on sutural interdigitation and nanomechanical properties of facial suture in order to provide a experimental basis for feasibility of applying sutural distraction osteogenesis in different ages.
第一部分面缝增龄性变化的实验研究目的研究兔的前颉缝、鼻额缝、颧颞缝、腭横缝的交错性及纳米弹性性能及其缝的生物力学特性的增龄性变化,为缝牵引成骨技术的临床应用提供实验依据。
5) distraction steogenesis
骨牵引成骨术
1.
Objective The purpose of this present study was to evaluate the effctiveness of combined orthodontic and distraction steogenesis on skeletal class II malocclusion.
目的:探讨正畸治疗在骨牵引成骨术治疗成人骨性安氏II类错的方法和特点。
6) Mechanism of distraction osteogenesis
骨痂牵引成骨(DO)
补充资料:X射线峰增宽
分子式:
CAS号:
性质:粉晶X射线衍射峰的增宽,若不计及X射线光束的不平行性及其他仪器因素,主要取决于晶样颗粒的线度尺寸D(h*k*l*)与布拉格衍射角θnh*, nk*, nl*,以弧度为单位的2θ衍射峰的半高宽B(2θ)与D和θ间有下列Scherer关系式:B(2θ)=kλ/Dcosθ式中λ为X射线波长,常数K值近于0.89。显然,衍射峰宽B与D成反比,并随θ增加而增宽。线度在(5×102)~104nm范围晶粒的粉晶样可给出明锐的衍射弧线,线度在10~200nm范围的微晶,其衍射峰则将给出明显的增宽现象。
CAS号:
性质:粉晶X射线衍射峰的增宽,若不计及X射线光束的不平行性及其他仪器因素,主要取决于晶样颗粒的线度尺寸D(h*k*l*)与布拉格衍射角θnh*, nk*, nl*,以弧度为单位的2θ衍射峰的半高宽B(2θ)与D和θ间有下列Scherer关系式:B(2θ)=kλ/Dcosθ式中λ为X射线波长,常数K值近于0.89。显然,衍射峰宽B与D成反比,并随θ增加而增宽。线度在(5×102)~104nm范围晶粒的粉晶样可给出明锐的衍射弧线,线度在10~200nm范围的微晶,其衍射峰则将给出明显的增宽现象。
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