1) dental volumetric CT
牙颌专用CT
1.
Materials and Methods:The TMJ examination was conducted in 162 patients with dental volumetric CT,and we chose the interested region to reconstruct the images of bony structure of TMJ at axial view,coronal posi- tion,sagittal position which were commonly used in clinic and oblique position parallelled to the long axis of condyle,oblique.
目的:探讨牙颌专用CT的颞颌关节成像技术及临床应用价值。
2.
Methods: On the basis of imaging technigue of TMJ with dental volumetric CT, choose the interested region to reconstruct the image of skeletal structure of TMJ at axial view、sagittal position、oblique position parallelled to the long axis of condyle and oblique position vertical to the long axis of condyle with dental volumetric CT.
目的:探讨牙颌专用CT对颞下颌关节(temporomandibular joint,TMJ)骨性结构的测量技术。
2) special maxillofacial CT
颌面专用CT
1.
Clinical application of special maxillofacial CT in the estimation of relation between maxillary sinus and molar region;
应用颌面专用CT显示上颌窦与上颌后牙区关系
2.
The establishment of examinational technique on styloid process with special maxillofacial CT;
颌面专用CT茎突检查技术的确立
4) dental limited cone beam 3D CT
牙科用小照射野三维CT
5) maxillary edentulous jaw
上颌无牙颌
1.
Method:A maxillary edentulous jaw was restored by four-implants-supported fixed bridge and extracoronal resilient attachment denture.
目的:建立上颌无牙颌种植体义齿与附着体联合修复的三维有限元模型,为其生物力学分析提供数学模型基础。
2.
Objective: To develop the stress distribution variation when restore maxillary edentulous jaw with different cantilever arm length and implant place, to get a better design proposal.
目的:探讨修复上颌无牙颌的种植固定长桥,悬臂长度与种植体位置改变时应力分布的变化,寻找一种更为合理的设计方案。
3.
ObjectiverTo develop a new method to restore maxillary edentulous jaw with front fixed bridge supported by implants and back attachment denture and choose a more reasonable design by comparing stresses of two kinds of attenchments(rigid and resilient) and different implant number and place.
目的:探讨一种新的上颌无牙颌修复设计一前端种植体固定桥和后端附着体义齿联合应用,通过建立该设计的三维有限元模型,比较附着体弹性和硬性、种植体不同位置和数目在该设计中的应力分布,寻找合理的设计方式。
6) edentulous mandible
下颌无牙颌
1.
Application of ball-cap retained imlant-supported overdenture in the atrophied edentulous mandible;
球帽附着体种植覆盖全口义齿在下颌无牙颌的应用
2.
Application of ball-cap retained implant-supported overdenture in the atrophied edentulous mandible;
球帽附着体种植覆盖义齿在萎缩下颌无牙颌的应用
3.
[ Objective ] To investigate the clinical effect of Endopore System implant- supported over-denture in the severely atrophy edentulous mandible (SAEM).
[目的]探讨Endopore系统种植覆盖义齿在严重萎缩的下颌无牙颌病人的临床应用效果。
补充资料:CT、CT-C系列热风循环烘箱.
原理:
本产品经过几次升级换代;达到国内外先进水平;它时候利用蒸气或电为热源;用轴流风机对热交换器以对流的方式加热空气;热空气层流经烘盘与物料进行热时传递;新鲜空气从进风口进入烘箱进行补充;再从排湿口排出;不断补充新鲜空气与不断的排出湿热空气这样来保持烘箱内适当的相对湿度;本烘箱最大的特点是大部分热风在箱内进行循环;从而增加了传热;节约了能源;使烘箱的热效率从传统的烘房的3%~8%提高到目前的35%~50%左右;它是利用强制通风的作用;减少上下温差;我长出厂的烘箱;均设有分风装置;用户可在使用前进行风叶调节;使上下温差处于最佳状态;
CT系列烘箱不带自动控制;采用4-72离心风机;CT-C型系列烘箱全部采用低燥音耐高温轴流风机;配用了自动恒温控制系统;并备有电脑控制系统选择;
说明:
1加热热源蒸气;电;远红外;汽电两用;供用户选择
2使用温度;蒸气加热50~140℃;最高150℃
3用电;远红外温度50~300℃
4可配套自控系统或电脑控制系统;供用户选择
5常用蒸气压力0.2-0.8Mpa
6配用电加热按Ⅰ型计算15kw、实用5~8kw/h
7特殊要求在定货时表明
8非标烘箱价格面议
9使用温度大于140℃或小于60℃要在订货时注明;
10本厂出厂的烘车;烘盘尺寸统一;可以互换;11烘盘尺寸;460×640×45mm
应用:
适用于制药、华工、食品、农户产品、水产品、轻工、重工等行业物料及产品的加热固化、干燥脱水。如原料药、生药、中药饮片、浸膏、粉剂、颗粒、冲剂、水丸、包装瓶、颜料染料、脱水蔬菜、瓜果干、香肠、塑料树脂、电器元件、烘漆等。
可配套各种干燥设备使用;规格品种多样;使用材质有;铝合金;不锈钢、A3钢表面涂锌、钢铝复合、铜制、钢管铝绕片。另外,散热器可单独用于室内及库房的加热除湿,我厂可为用户制作。
工艺流程:
技术参数:
行业标准型号 | 型号规格 | 每次干燥量(kg) | 配用功率(kw) | 耗用蒸汽(kg/h) | 散热面积(m2) | 风量(m3/h) | 上下温差(℃) | 配用烘盘 | 外形尺寸 宽×深×高(mm) | 配套烘车 |
RXH-4-B | CT-Ⅰ | 100 | 1.1 | 20 | 20 | 3400 | ±2 | 48 | 2430×1200×2375 | 2 |
RXH-27-B | CT-Ⅱ | 200 | 1.1 | 40 | 40 | 5200 | ±2 | 96 | 2430×2200×2433 | 4 |
RXH-41-B | CT-Ⅲ | 300 | 2.2 | 60 | 80 | 9800 | ±2 | 144 | 3430×2200×2620 | 6 |
RXH-54-B | CT-Ⅳ | 400 | 2.2 | 80 | 120 | 9800 | ±2 | 192 | 4380×2200×2620 | 8 |
RXH-5-C | CT-C-O | 25 | 0.45 | 5 | 5 | 3400 | 0 | 16 | 1480×1100×1750 | 0 |
RXH-14-C | CT-C-ⅠA | 50 | 0.45 | 10 | 10 | 3400 | ±2 | 24 | 1400×1200×2000 | 1 |
RXH-14-C | CT-C-Ⅰ | 100 | 0.45 | 18 | 20 | 3450 | ±2 | 48 | 2300×1200×2000 | 2 |
RXH-27-C | CT-C-Ⅱ | 200 | 0.9 | 36 | 40 | 6900 | ±2 | 96 | 2300×2200×2000 | 4 |
RXH-41-C | CT-C-Ⅲ | 300 | 1.35 | 54 | 80 | 10350 | ±2 | 144 | 2300×3220×2000 | 6 |
RXH-54-C | CT-C-Ⅳ | 400 | 1.8 | 72 | 120 | 13800 | ±2 | 192 | 4460×2200×2000 | 8 |
RXH-18-C | CT-C-ⅠB | 120 | 0.9 | 20 | 25 | 690 | ±2 | 48 | 1460×2160×2250 | 2 |
RXH-41-C | CT-C-ⅠS | 专用烘瓶 | 2.2 | 60 | 100 | 6900 | ±2 |
| 1140×6160×3240 | 6 |
RXH-25-A | 高效高温远红外减菌烘箱 | 1200×1000×1600 | 1 | |||||||
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